Detergents, Cosmetics, Disinfectants, Pharma Chemicals

CELLULOSE ACETATE
CELLULOSE ACETATE BUTYRATE, N° CAS : 9004-36-8 - CAB, Nom INCI : CELLULOSE ACETATE BUTYRATE, Le butyrate d'acétate de cellulose (CAB) est un thermoplastique transparent qui ressemble à l'acétate de Cellulose mais il est plus cher et plus résistant. Il est utilisé en cosmétique principalement dans les vernis à ongles comme agent filmogène. Nous n'avons pas trouvé d'information sur sa biodégradabilité. Il est interdit en Bio. Agent filmogène : Produit un film continu sur la peau, les cheveux ou les ongles
CELLULOSE ACETATE BUTYRATE
Nom INCI : CERAMIDE 1 Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CELLULOSE ETHERS
Cellulose ethers are a nonionic, water-soluble polymer.
Cellulose ethers are like water retention, thickening, suspension, anti-microbial, high salt tolerance, and ion/PH insensitivity.
Cellulose ethers are an excellent thickening agent for cosmetic and personal care formulations.


CAS Number: 9004-62-0
MDL number: MFCD00072770


Cellulose ethers are soluble in water.
This solubility, however, decreases with increasing temperature.
Cellulose ethers are the powdered cellulose ether generated with wood fiber or refined short cotton fiber as the main raw materials, after chemical treatment and by the reaction of etherifying agents such as chlorinated ethylene, chlorinated propylene and oxidized ethylene.


The production process of Cellulose ethers is complex.
Cellulose ethers form a non-ionic gel without the effect of electrolyte, suitable for formulations containing electrolyte.
Cellulose ethers start with the extraction of cellulose from cotton or wood, which then transforms into alkaline cellulose after adding sodium hydroxide and by chemical reaction (alkaline solution).


Cellulose ethers also have good film-forming ability and surface activity.
Under the action of etherifying agents (etherification reaction), Cellulose ethers are generated from alkaline cellulose through such processes as washing with water, drying and grinding.


Cellulose ethers are a white, free-flowing granular powder and is made by reacting ethylene oxide with alkali-cellulose.
Different etherifying agents can turn alkaline cellulose into different types of Cellulose ethers.
The molecular structure of cellulose is composed of the molecular bonds of dehydrated glucose units.


Cellulose ethers can be also be used to efficiently thicken shampoos, body washes and shower gels.
One of the problems normally associated with this and other water-soluble thickeners is the tendency of the particles to agglomerate or lump when first wetted with water.
The high-purity cosmetic grade of Cellulose ethers we offer is an R-grade, designed to be added to water without lumping, and thus greatly facilitating solution preparation.


Cellulose ethers are an excellent thickening agent for cosmetic and personal care formulations.
Each glucose unite contains three hydroxyl groups.
Under certain conditions, the hydroxyl groups will be substituted by methyl, hydroxyethyl, hydroxypropyl and the like groups, and can form cellulose of different varieties (for example, if substituted by methyl, then it is called methyl cellulose; if substituted by hydroxyethyl, then it is called hydroxyethyl cellulose; if substituted by hydroxypropyl, then it is called hydroxypropyl cellulose).


Since methyl cellulose is a mixed ether produced by the etherification reaction, with methyl as the main material but containing a small amount of hydroxyethyl or hydroxypropyl, it is called methyl hydroxyethyl cellulose ether or methyl hydroxypropyl cellulose ether.
This process permits the preparation of clear, smooth, viscous solutions in a short period of time by simply adding the R-grade to water and stirring until the polymer is completely dissolved to prevent settling of the particles.


The inhibition period, from the initial wetting to the start of dissolution, is referred to as the hydration time.
This hydration time can vary from 4-25 min.
Hydration time is markedly affected by two factors: pH and temperature of the water.


Cellulose ethers's nature's most abundant biopolymer in plants, wood, and cotton cell walls.
Cellulose ethers are a gelling and thickening agent derived from cellulose.
Cellulose ethers are a non-ionic cellulose ether made through a series of chemical processes, with the natural polymer celluloses as raw materials.


Cellulose ethers are a line of nonionic, water-soluble, cellulose based polymers from Dow.
Cellulose ethers are produced by treating reacting alkali-cellulose with ethylene oxide.
Due to the difference in the substituents (such as methyl, hydroxyethyl and hydroxypropyl) and the difference in the degree of substitution (the amount of substituted substance of reactive hydroxyl in each cellulose), cellulose ethers of different varieties and grades can be obtained.


Cellulose ethers are a white to light yellowish, oderless and tastless powder, readily soluble in hot or cold water to form a viscous gel solution.
Cellulose ethers are also the most efficient grade of non-ionic thickener available from the manufacturer.
Hydration of the R-grade particles has been inhibited.


Cellulose ethers are odorless, tasteless, and non-toxic in the shape of white to off-white powders or granules.
Cellulose ethers can be dissolved in water to form a transparent viscous solution.
This leads to solutions containing the Cellulose ethers to have a unique reversible thermal gelation property.


A higher temperature and a higher pH decrease the hydration time, but a too high temperature or pH can result in lumping.
Cellulose ethers are a nonionic, water-soluble polymer.
Cellulose ethers consists of two components: cellulose and hydroxyethyl side chain.


Cellulose ethers has many properties.
Cellulose ethers are a non-ionic, water-soluble polymer derived from cellulose through a series of chemical and physical processes.
But Cellulose ethers molecule is capable of generating esterification, etherification and acetal reaction, so Cellulose ethers are possible to make it insoluble in water or improve its properties.


Cellulose ethers have an exceptional skin feel and is the perfect ingredient to make crystal clear serums for water soluble active ingredients.
Cellulose ethers are a water soluble, non-ionic, highly esterified hydroxyethyl cellulose powder.
This grade of Cellulose ethers are particularly well suited for use in interior paints and nonwovens.


Cellulose ethers are nonionic cellulose ether and its solution are more tolerant to the presence of cations,anions and organic solvents.
Cellulose ethers are bio-degradable,non-toxic and environmental friendly natural product.
Cellulose ethers will produce crystal clear gel products and thicken the aqueous phase of cosmetic emulsions.


The thermal gelation behavior varies based on the methoxy and hydroxypropyl substitution of the Cellulose ethers polymer in the solution.
Cellulose ethers provides enhanced biostability, very high thickening and water retention, moderate foam stabilization and high solution clarity, gloss appearance, pigment compatibility and pseudoplasticity.
Cellulose ethers's beneficial to various construction projects.


Cellulose ethers are derived from cellulose.
So, Cellulose ethers are recommended that it be added to room temperature water with a neutral pH.
Once hydrated, Cellulose ethers can be heated and the pH can be adjusted as may be needed.


This property makes Cellulose ethers a valuable processing aid for the production of intricate ceramic parts that require high green strength.
Cellulose ethers are easily dissolved in cold or hot water to give crystal-clear solutions of varying viscosities.
Cellulose ethers are a white, odorless, tasteless, non-toxic, which is often used as a thickener for methyl hydroxyethyl cellulose or hydroxyethyl cellulose grades in industry agent.


Cellulose ethers are water-soluble polymers produced by the chemical modification of cellulose.
The major commercial cellulose ethers include carboxymethylcellulose (CMC), methylcellulose (MC) and derivatives such as hydroxypropyl methylcellulose (HPMC) and hydroxyethyl methylcellulose (HEMC), hydroxyethylcellulose (HEC) and derivatives such as ethyl hydroxyethylcellulose (EHEC) and methyl ethyl hydroxyethylcellulose (MEHEC), hydroxypropyl cellulose (HPC), and ethylcellulose (EC).


Cellulose ethers are a non-ionic, water-soluble polymer efficient thickening agent and suspending agent.
Cellulose ethers act as a thickening and stabilizing agent.
Cellulose ethers are a nonionic cellulose ether with delayed solubility to ensure a lump free solution in aqueous systems.


Cellulose ethers exhibits high compatibility with other raw materials such as surfactant.
Cellulose ethers are soluble in cold or hot water to give clarified solution.
Cellulose ethers are a truly multitalented chemical.


Its initial material cellulose can take on different solubility properties through etherification, resulting in a polymer that is soluble in either water or many other organic solvents.
Cellulose ethers exhibits high compatibility with other raw materials such as surfactant.


Hydration time is affected by several factors- pH and temperature of the solution, and concentration level of the Cellulose ethers, and the presence of alkalis like TEA, Sodium hydroxide (pH) solution.
Cellulose ethers are a nonionic cellulose ether with delayed solubility to ensure a lump free solution in aqueous systems.


When pH in solution is within 2 to 12, the solution is quite stable.
Since Cellulose ethers group is nonionic one in water solution, it won't be reacted with other anions or cations and insensitive to the salts.
This characteristic makes Cellulose ethers highly versatile and allows it to have a wide range of functions in many different sectors.


Cellulose ethers has thickening, adhesion, dispersion, emulsification, film-formation, suspension, absorption, surface activity, salt tolerance, water retention, providing protective colloids and other properties.
For Building water phase Viscosity/Stability: 0.1%- 0.5%
For high viscosity crystal clear gel: 1.0%-3.0%


Cellulose ethers features good water retention and an excellent thickening effect.
Cellulose ethers are hydrocolloids that produce water-based solutions with a pseudoplastic (shear thinning) rheology.
Cellulose ethers are supplied as a free flowing powder in bags. Higher pH and higher temperatures DECREASE hydration time, but the higher pH and temperature adjustments too quickly may result in lumping.


It's recommended that the Cellulose ethers be added to room temperature water, with a neutral pH.
Once hydrated, Cellulose ethers can be heated and the pH can be adjusted (typically using TEA) as needed.
(The inhibition period, from the initial wetting to the start of dissolution, hydration time, may vary from 5-25 min)
This reaction converts some of the hydroxyl groups on the cellulose polymer to hydroxyethyl groups.


Cellulose ethers are a water-soluble synthetic polymer derived from cellulose in which ethylene oxide groups have been added to the hydroxyl groups.
When the particles are added to water, they disperse without lumping, and following a predetermined delay, begin to dissolve.
Cellulose ethers are a non-ionic, water soluble polymer used as a thickening agent for aqueous cosmetic and personal care formulations.


This nonionic, water soluble polymer, Cellulose ethers, offers efficient and cost-effective options for making crystal clear gel products.
Grades vary mainly in degree of substitution and molecular weight.
The degree of substitution can be determined by the letter in the Cellulose ethers grade name.


For example grades beginning with the letter "A" are methyl cellulose and have only methoxy substitution and grades beginning with the letter "E" are HPMC and contain both methoxy and hydroxypropyl groups.
The number that follows the substitution designation represents the viscosity of a 2% solution of that polymer in water.


For instance Cellulose ethers has a viscosity of 4,000 cps whereas A4C has a viscosity of 400 cps when added to water at 2%.
The viscosity of solutions of Cellulose ethers is directly correlated to the molecular weight of the polymer and the addition rate, whereas the solubility of the Cellulose ethers is dependent on the degree of substitution.



USES and APPLICATIONS of CELLULOSE ETHERS:
Cellulose ethers also play a role in the emulsion, dispersion, stability and water retention.
Cellulose ethers has good rheological properties at different shear rates, and has good workability and leveling, not easy to drop, good splash and sag resistance.
Cellulose ethers are easy to use and provides exceptional skin feel, viscosity and stability.


Cellulose ethers offers efficient and cost-effective options for making crystal clear gel products.
Cellulose ethers are used to obtain the optimum hydration time to prevent agglomeration caused by accelerators greater than the optimal dissolution rate.
Cellulose ethers powders consolidate many advantages and contribute to the construction field.


Cellulose ethers polymers are largely used as water-binder and thickening agent in many industry applications, that is, personal care products, pharmaceutical formulations, building materials, adhesives, etc., and as stabilizer for liquid soaps.
Cellulose, which finds different applications such as cleaning materials, pharmaceuticals, and cosmetics, is synthesized in different forms such as methyl cellulose (MC), hydroxyethylcellulose (HEC), hydroxyethylmethylcellulose (HEMC), hydroxypropylmethylcellulose (HPMC) through the etherification process, and plays a very important role in the construction and paint industry.


Different varieties can be widely used in construction, food and pharmaceutical industries, as well as other different fields such as daily chemical industry and petroleum industry
This pseudoplasticity makes high viscosity grades of Cellulose ethers an ideal thickener for latex paint applications where the paint must stay on the brush, yet flow out easily upon brushing.


In pharmaceuticals, cellulose has been used as an adsorbent, glidant, drug solvent, and suspending agent.
Cellulose ethers are a very important performance additive for modern cement and gypsum-based construction consumables.
Cellulose ethers improve formatting, improve machinability, increase throughput, coverage and reduce waste.


Cellulose ethers provide many benefits simultaneously.
Cellulose ethers provides excellent thickening efficiency, color development, open time, and superior resistance to biodegradation.
Cellulose ethers polymer is a hydroxyethyl ether of cellulose, obtained by treating cellulose with sodium hydroxide and reacting with ethylene oxide.


Cellulose ethers depend on functions such as water retention, lubrication, increase of crack-crack resistance, anti-slip, increase adhesiveness and extend open time.
Cellulose ethers are widely used in pharmaceutical and food applications.
Cellulose ethers are characterized by the formation of viscous gels in water, useful for making paints, adhesives for construction, as well as in the paper and oil industry, among others.


With good water retention, thickening, suspension properties, Cellulose ethers offers functional properties and enhance product performance in emulsion-based building materials.
Cellulose ethers are used in broad range of applications includes cosmetic & personnel care, Paint & coating, oilfield, construction, etc.
Cellulose ethers scientific research team specifically for the texture paint, latex paint development of a product, product thickening suspension effect is good, high water retention rate, a small amount of addition, low product unit price can reduce the production cost.


Cellulose ethers are recommended as thickening agent in water-based paint.
In medicine field, Cellulose ethers and methyl cellulose (MHEC) are frequently used with hydrophobic drugs in capsule formulations, to improve the drugs' dissolution in the gastrointestinal fluids.


Cellulose ethers has uses in the cosmetics and personal care industries as a gelling and thickening agent.
Cellulose ethers are a cellulose ether that is primarily used as a thickener for water-based paint, ink, and adhesive formulations.
Cellulose ethers are used as an excellent film former, binder, water-retention agent, thickener and emulsifier.


Cellulose ethers function as stabilizers, thickeners, and viscosity modifiers in many industries, including food, pharmaceuticals, personal care products, oil field chemicals, construction, paper, adhesives, and textiles.
Cellulose ethers are one of the main components of the personal lubricant brand known as K-Y Jelly.


Cellulose ethers can also be found in household cleaning products.
Cellulose ethers are also used extensively in the oil and gas industry as a drilling mud additive under the name
Among other similar chemicals, Cellulose ethers are often used as slime (and gunge, in the UK).


Cellulose ethers are a commonly used thickener in paint&coating formulations.
Cellulose ethers are used in paint&coating formulations to increase the viscosity of the paint and to improve its flow and leveling properties.
Cellulose ethers include antiperspirants & deodorants, conditioners, body care, facial care, styling products, sunscreens, liquid soaps, shave gels and foams, wipes (baby and adult), makeup/mascara, AP/Deodorant solids, and lubricant gels.


In select applications, they compete with each other and with synthetic water-soluble polymers (polyvinyl alcohol, polyurethane associative thickeners, polyacrylates) and natural water-soluble polymers (xanthan gum, carrageenan, locust bean gum).
Cellulose ethers finds applications as a binder, film former, rheology modifer (thickener), adhesion promoter, dispersion stabilizer, extender and slumping reducer in numerous products including paints, inks, adhesives, cosmetics, personal care products, textiles, cements, ceramics and paper products.


Cellulose ethers are a non-ionic soluble cellulose ether, soluble in both cold and hot water, thickening, suspension, adhesion, emulsification, film formation, water retention, protective colloids and other properties, used in coatings.
The choice of polymer is determined by price/performance trade-offs, availability, and ease of product reformulation based on price/performance considerations.


Cellulose ethers are used as a thickener for a series of organic solvents.
Cellulose ethers are used in various formulations such as film formulations, emulsifiers, flow regulators, and anti-mildew.
Cellulose ethers can be one of the main ingredients in water-based personal lubricants.


One of the most important applications of Cellulose ethers and HMHEC are waterborne architectual coatings.
They are either used alone or in combination with other thickeners.
Infact, Cellulose ethers are the most widely used thickener in exterior latex paints because it is compatible with many coating ingredients such as pigments, surfactants, emulsifiers, preservatives, and binders.


Specifically, they apply in paints and coatings, oil drilling, adhesives and sealants.
Cellulose ethers are widely used in cosmetics, cleaning solutions, and other household products. Cellulose ethers and methyl cellulose are frequently used with hydrophobic drugs in capsule formulations, to improve the drugs' dissolution in the gastrointestinal fluids.


Cellulose ethers are used as a thickener,binder, stabilizer,film forming, protective colloids and suspending agent.
Cellulose ethers product is used in a whole host of applications, including construction materials, cleaning agents, food production and much more.
In the production of paper, in the production of pet bedding for the production of aqueous polymer emulsions based on ethylene-derived compounds, in the production of pharmaceuticals for the production of various creams and lotions, in the production of toothpaste, in the plastics industry.


Cellulose ethers enhances the viscosity of drilling fluid.
In addition to its useful nature as a thickening agent, Cellulose ethers also provides the benefits of a suspension aid, binder, emulsifier, film former, emulsion stabilizer, dispersant, water retention aid, and protective colloid.


Cellulose ethers are also a key ingredient in the formation of large bubbles as it possesses the ability to dissolve in water but also provide structural strength to the soap bubble.
Cellulose ethers act as a binder, protective colloid, thickener, water retention agent, film former, etc., for the production of various industrial products such as building materials, paints, paper, detergent, textiles and food.


Cellulose ethers are suitable for latex paint, oil drilling, adhesives, and personal care.
Cellulose ethers are mainly used in water-based products.
Cellulose ethers are non-ionic, water-soluble materials that provide good properties of thickening, suspending, binding, emulsify, film-forming, stabilize, disperse, retain water and etc.


And Cellulose ethers are widely used in coatings, construction, medicine, food, papermaking and polymer polymerization industry.
Cellulose ethers are used as adhesives, bonding aids, filling cement admixtures
Cellulose ethers are used as a gelling and thickening agent in the development of biological structures for hydrophobic drugs.


Cellulose ethers are not an emulsifier and will not emulsify oils into water.
Cellulose ethers finds application in formulating hair styling gels, cosmetic products and personal care formulations.
In the construction industry, Cellulose ethers are used as a thickener and water retention agent.


In the food industry, Cellulose ethers are used in confectionery, bakery products, nuts, cream, creams, sweetener tablets, cheese and tomato sauces.
Cellulose ethers can also be used to make crystal clear, water soluble hair styling gels.
In addition, Cellulose ethers offer excellent functionality when used in the water phase of emulsions to build viscosity and stability.


However, Cellulose ethers are not an emulsifier and will not emulsify oils into water.
Cellulose ethers are used in rinses, hair conditioner, hair gel and shaving products.
Cellulose ethers are a hydroxyethyl cellulose powder recommended for use in interior and exterior paints.


Cellulose ethers grades are defined by their molecular weight or more specifically the viscosity of the aqueous solution that they produce at 2% by weight.
Solutions of low molecular weight Cellulose ethers grades have a rheology that is near Newtonian and useful for applications that require a stable viscosity regardless of shear.


The applications for Cellulose ethers range but in the industrial space it is primarily used for general thickening applications in latex paints, household cleaners and tape-joint compounds.
Cellulose ethers are a gelling and thickening agent derived from cellulose.


Cellulose ethers are commonly used in the production of water-based resins, the production of interior paints, the adhesive industry, the polymerization of vinyl acetate, the copolymer lactate with vinyl acrylic acid, the hydraulic fracturing process, the production of nonwovens and detergents, cosmetics, Layering of tiles.
Cellulose ethers are mostly used as rheology modifiers in various construction applications.


Cellulose ethers are natural, non-toxic, water-soluble, cellulose based polymers including Methyl Cellulose and Hydroxypropyl Methylcellulose (HPMC or hypromellose).
Cellulose ethers acts as a thickening and stabilizing agent.
Cellulose ethers are used to thicken shampoos, gels, body washes, and add body and after feel to bubble baths, body care products, lotions and creams.


Cellulose ethers is produced from the cellulose pulp of southern white pine and cotton linters.
This cellulose pulp is treated with a caustic to produce alkali cellulose.
The hydroxyl groups of the alkali cellulose are then replaced with methoxy and hydroxypropyl groups by chemical treatment with methyl chloride and propylene oxide.


The resulting ether is non-ionic, water-soluble, and stable in a wide pH range.
For this reason they are often used as thickeners, rheology modifiers, and water-retention agents for end-use applications in coatings, adhesives, agrochemicals, ceramics, and various other industrial applications.


Cellulose ethers offers narrow viscosity ranges, consistent viscosity reproducibility, and excellent solution clarities.
Other functions for this family of Cellulose ethers in industrial applications include use as binders, film-formers, suspension aids, protective colloids, and emulsifiers.
Cellulose ethers are used as coatings and optical brightener additives, coating polymers, filter control additives


Cellulose ethers are used as wet strength enhancer, protective colloid, rebound and slip reducing agent, rheology control modifier
Cellulose ethers are used as a non-ionic cellulose thickener, usually to enhance viscosity, increase concentration by absorbing water, increase viscosity, increase stability, increase degradability, and increase gloss.


Cellulose ethers used in the paint and coating industry are used to improve stability and solubility of paints.
Cellulose ethers are also used in the construction industry to increase binding, water retention and working time.
Cellulose ethers can be used in building materials, paints industry, petrochemicals, synthetic resin, ceramic industry, pharmaceutical, food, textile, agriculture, cosmetics, tobacco, ink, papermaking and other industries.


Cellulose ethers acts as a non-ionic thickening agent.
In addition, Cellulose ethers are one of the effective inputs in ceramics with its binder in textiles, thickening and water retention in adhesives.
Shrinkage and spreading parameters are evaluated in order to determine the suitable Cellulose ethers for the system as well as the other parameters such as viscosity, moisture content, ash content, open time.


Solutions of high molecular weight Cellulose ethers, however, behave in a non-Newtonian manner and will have a pseudo-plastic rheology.
Cellulose ethers are commonly used in the production of water-based resins, the production of interior paints, the adhesive industry, the polymerization of vinyl acetate, the copolymer lactate with vinyl acrylic acid, the hydraulic fracturing process, the production of nonwovens and detergents, cosmetics, Layering of tiles.


-Recommended Field Application of Cellulose ethers:
*Interior paints
*Solid paints
*Exterior paints
*Silicon resin paints
*Tinters
*Glazes


-Applications of Cellulose ethers:
*Adhesives and Sealants:
Waterborne


-Agrochemicals:
*Cleaning: Household, Industrial & Institutional, Detergents
*Coatings: Architectural Coatings, Crafts and Hobby, General Industrial, Printing Inks, Powder Coatings, Floorings
*Construction: Concrete Admixtures, Boards, Dry Mortar, Ready Mix, Roof, Bitumen, Asphalt, Sealants
Food and Feed: Bakery, Beverages, Convenience food, Functional Food, Meat Processing, Spices
Foundry


-Application properties of Cellulose ethers:
Cellulose ethers are majnly recommended for ready mixed joint compounds (RMJC).
Cellulose ethers provroes a very creamy and easy wôrkability.
Usually Cellulose ethers are used in combination with Tylose@ MHPC or MHEC grades to Typical data further improve the workability


-Applications of Cellulose ethers:
*Water-based paint
*Polymerization
*Cosmetics
*Others


-Industrial Chemicals:
*Health Care:
Nutraceuticals, Pharmaceuticals
Oil and Gas, Lubricants
Paper, Paper, Cardboard, Tissue
*Personal Care:
Skin and Body Care, Hair Care, Cleaning and Styling, Oral Care
*Textile and Leather:
Auxiliaries


-Uses of Cellulose ethers:
*solubility
*thickening effect
*surface activity


-Application Field of Cellulose ethers:
*Interior wall latex paint
*Exterior wall latex paint
*Real stone paint
*Texture paint


-Uses of Cellulose ethers:
*Construction uses of Cellulose ethers: Cement mortar, Concrete mix, Thickening
*Dyeing: Latex paint, polymer emulsifying, Thickening, water retention, retarding
*Papermaking:Sizing agent,Thickener, water-retaining
*Cosmetic:Toothpaste, shampoo, Detergent, Thickener, stabilizer
*Petroleum Oil:Drilling well, completing fluids,Water retention, Thickening,Control of fluid loss


-Aplications of Cellulose ethers:
• Paint and coating thickener.
• Preparation of water-based latex paints.
• Preparation and synthesis of binder.
• Extraction of petroleum.
• Construction and building materials.
• Manufacture of paper.
• Binder.
• Adhesive.


-Recommended fields of application of Cellulose ethers:
*Interior paints
*Exterior paints


-Typical recommended for thickening and hydration using Cellulose ethers.
Disperse Hydroxyethyl cellulose in solution, usually water, and by stir vigorously or using a blender.
Continue to hydrate the HEC in water until completely dissolved.
The thickening will be delayed, this is normal and how the product is designed to work.
(Stir until all particles are dissolved.
This process allows the preparation of clear, smooth, viscous solutions in a short period of time by simply adding the R-grade to water and stirring until the polymer is completely dissolved to prevent settling of the particles.



PHYSICAL AND CHEMICAL PROPERTIES OF CELLULOSE ETHERS:
Cellulose ethers are soluble in both cold and hot water, but under normal circumstances does not dissolve in most organic solvents.
When the pH value is within the range of 2-12, the change in viscosity is small, but if beyond this range, the viscosity will decrease.
The surface-treated Cellulose ethers can be dispersed in cold water without agglomeration, but dissolution rate is slower, and generally it requires about 30 minutes.
With heat or adjusting the pH value to 8-10, it can be rapidly dissolved.



BENEFITS OF CELLULOSE ETHERS:
Cellulose ethers are used as a high performance non-ionic thickener, water-retaining aid and rheological additive in all types of water-based paints and surface coatings, adhesives and many other water-based industrial products.
Cellulose ethers gives these systems excellent rheological properties.
*Additional purification to reduce ash content Excellent salt tolerance
*Imparts slip and lubricity
*Ability to create clear formulations
*Stabilizes emulsion systems
*Surface-treated to aid incorporation into water
*Vegan suitable



FEATURE OF CELLULOSE ETHERS:
*Cellulose ethers dissolves readily in both cold water and hot water.
*Aqueous solutions of Cellulose ethers are stable and do not gel at either high or low temperatures.
*Cellulose ethers are a nonionic cellulose ether that remains chemically and physically stable over a wide pH range.
*Cellulose ethers shows excellent performance as athickener, as a water-retention agent, as a suspending and dispersing agent, and as a protective colloid.
*Cellulose ethers can be stored for log periods without degrading significantly, and in aqueous solutions its viscosity remains stable.
*Cellulose ethers are a water-soluble polymer synthesized by the reaction of ethylene oxide with cellulose.
Aqueous solutions of Cellulose ethers have excellent characterisstics for applications as thickeners, water-retention agents, suspending and dispersing agents, and as protective colloids.
In the synthesis of hydroxyethylcellulose, the avarage number of moles of ethylene oxide that combines with each mole of cellulose (MS) is used as an index.
The value of MS in Cellulose ethers are controlled within 1.5 to 2.5.



INDUSTRIES OF CELLULOSE ETHERS:
*Adhesives & Sealants
*Agrochemicals, Construction
*Cleaning
*Coatings & Inks
*Composites
*Food
*Foundry
*Health Care
*Industrial Chemicals
*Personal Care
*Oil
*Gas & Lubricants
*Paper
*Textile & Leather



CELLULOSE ETHERS USED IN THE BUILDING INDUSTRY AND TEST METHODS:
Cellulose is an environmentally friendly natural polymer that originates from trees and plants and is generally obtained from wood, cotton or fibrous plants.
The trees and plants from which cellulose and its derivatives are obtained are decreasing day by day in the world.
In order to prevent this situation, studies on obtaining cellulose from cotton waste and renewable plants have recently been among the priorities of scientists.



THE MANUFACTURING PROCESS OF CELLULOSE ETHERS ARE AS FOLLOWS:
1. Purify the cellulose.
2. Mix it with sodium hydroxide to form swollen alkaline cellulose.
3. Then react it with ethylene oxide.



SPECIFICATIONS OF CELLULOSE ETHERS:
- Cellulose ethers provides viscosity at 3,400-5,000 mPa s (cPs) at 1% in water.
- Cellulose ethers melts and forms a gel at about 70 degrees and dissolves well at pH higher than 7 (use an alkali such as Triethanolamine helps to raise the pH value, after dissolving, can adjust the pH later)
- Cellulose ethers can be used in formulations that are acidic down to pH 3 and alkaline up to pH 9.
- Cellulose ethers has no smell



PROPERTIES AND FUNCTIONALITY OF CELLULOSE ETHERS:
*Benefit from the non-anionic nature, Cellulose ethers are high stable to broad range of salt, soluble and high resistance even in high brine concentration.
*High-performance thickening, efficient high viscosity build up
*Outstanding pseudoplasticity, Unique shear-thinning characteristic and viscosity reversible
*Film-forming agent, protective colloid action.
*Water retention,maintain water content at formulation
*Excellent compatibility to broad range of water soluble materials or ingredients



VISCOSITY VALUE OF CELLULOSE ETHERS:
Cellulose ethers are measured with a viscometer measuring according to the Brookfield method at 20°C and by preparing a 2% solution of the product.
The value is determined in mPa.s, which is obtained as a result of the measurement according to the ASTM D2364 standard.
Viscosity is one of the most important parameters that determine the usage areas and quality of cellulose product groups.
Cellulose ethers retain the mixing water with increasing viscosity and prevent the substrate from absorbing the mixing water, as they impart water retention to the mortar.
In the absence of water loss, hydration continues and the mortar does not lose its strength.



IMPORTANT PROPERTIES OF CELLULOSE ETHERS:
Cellulose ethers can be used as a non-ionic surface active agent.
In addition to thickening, suspending, adhesion, emulsifying, film-forming, dispersing, water-retaining and providing protective colloid properties, but also has the following properties.
1. Cellulose ethers are soluble in hot or cold water, does not precipitate by heat or boiling, and enables it to have a wide range of solubility and viscosity characteristics, as well as non-thermal gelation;
2. Cellulose ethers’s non-ionic itself and can coexist with a wide range of other water-soluble polymers, surfactants, and salts, a fine colloidal thickener for the solution containing a high concentration of electrolytes;
3. Cellulose ethers's water retention capacity is twice as that of methyl cellulose, and it has better flow-regulating property;
4. Cellulose ethers are stable in viscosity and prevented from mildew.
Cellulose ethers enables the paint to have good can-opening effects and better leveling properties in construction.



MOISTURE VALUE OF CELLULOSE ETHERS:
The amount of moisture in the Cellulose ethers content to be tested is measured by placing 1 g in a moisture analyzer set at 105 degrees, according to the ASTM D2364-15 standard.



DRILL INTO BETTER OIL PRODUCTION:
Useful in different forms of oil production, Cellulose ethers are a family of nonionic, water-soluble polymers that can thicken, suspend, bind, stabilize, disperse, form films, emulsify, retain water and provide protective colloid action.
These unique materials can be used to prepare solutions with a wide range of viscosities – including moderate viscosities with normal colloidal properties to maximum viscosities with minimal dissolved solids.

In workover and completion fluids, Cellulose ethers are a viscosifier.
Cellulose ethers helps oil producers provide clear, low-solids fluids that help minimize damage to the formation.
Fluids thickened with Cellulose ethers are easily broken with acid, enzymes or oxidating agents to maximize the potential for hydrocarbon recovery.
In fracturing fluids, Cellulose ethers materials act as carriers for proppant.

These fluids also can be broken down easily with acid, enzymes or oxidating agents.
Using the low-solids concept, drilling fluids that are formulated with Cellulose ethers offer increased penetration rates with good borehole stability.
Property-inhibited fluids can be used in drilling medium-to-hard rock formations, as well as heaving or sloughing shales.
In cementing operations, Cellulose ethers materials reduce hydraulic friction of the slurry and minimize water loss to the formation.



PROPERTIES OF CELLULOSE ETHERS:
Cellulose ethers are a free-flowing powder or granules that range in color from white to slightly yellowish.
Cellulose ethers are odorless and tasteless and contains residual moisture determined by the conditions of production, as well as a small amount of residual salts.
Cellulose ethers can also contain other additives which, for example, regulate the solubility and dispersibility or purposefully influence the development of viscosity.
Depending on the field of application, Cellulose ethers are offered in unmodified and modified form.

The most important properties of Cellulose ethers:
*solubility
*thickening effect
*surface activity



PROPERTIES AND APPLICATIONS OF CELLULOSE ETHERS:
Cellulose ethers are an important non-ionic, water-soluble cellulose derivative.
Cellulose ethers are a completely odorless, tasteless, and non-toxic white to light-yellow powder that readily dissolves in hot and cold water but is insoluble in most organic solvents.
When dissolved in water, Cellulose ethers forms a transparent viscous solution which has a non-Newtonian behavior.

The hydroxyl groups of Cellulose ethers present in the side chains can be reacted with hydrophobic moities to modify the properties of HEC.
For example, attaching polyether chains onto the cellulose (alkoxylation) yields hydrophobically modified Cellulose ethers.
Cellulose ethers are an associative thickener that forms a reversible three-dimensional supramolecular network in solution through intra- and intermolecular associations of the hydrophobic groups.



PHYSICAL and CHEMICAL PROPERTIES of CELLULOSE ETHERS:
Appearance Form: powder
Color: beige
Odor: No data available
Odor Threshold: No data available
pH: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flash point: No data available
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Vapor pressure: No data available

Vapor density: No data available
Density: No data available
Relative density: No data available
Water solubility: No data available
Partition coefficient:
n-octanol/water: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties: No data available
Oxidizing properties: No data available
Other safety information: No data available

Appearance Form: powder
Color: beige
Odor: No data available
Odor Threshold: No data available
pH: No data available
Melting point/freezing point: No data available
Initial boiling point and boiling range: No data available
Flash point: No data available
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Vapor pressure: No data available
Vapor density: No data available
Density: No data available
Relative density: No data available

Water solubility: No data available
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: No data available
Decomposition temperature: No data available
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties: No data available
Oxidizing properties: No data available
Other safety information: No data available
Chemical formula: variable
Molar mass: variable
Melting point: 140 °C (284 °F; 413 K)
Appearance: white or similar to white powder
Moisture(%): Max. 8.0
PH: 6.0-8.5
Apparent Density: 0.30-0.50 g/ml

Type: Interior / Exterior / Solid Paints
Form: Powder
Appearance: white powder
Etherification: high etherification
Particle size: powder
Delayed solubility: yes
Biostability: yes
Viscosity level (according to Höppler): hydroxyethyl cellulose
Viscosity: 4200 - 5500 mPa-s
solution pH: 6-8.5
Moisture content (packed): <6%
Ash (calculated as Na2SO4): <6%
particle size: no more than 10%
Esterification (MS): 2.70
swelling time: 20 minutes.
Bulk densit: 0.45g/l
Lower explosion limits: 30 g/m³
Upper explosion limits:
Density (at 20 °C): 1,1-1,5 g/cm³
Water solubility: (at 20 °C) > 10 g/L

Partition coefficient: log POW < 0
Ignition temperature: > 460 °C
Auto-ignition temperature > 120 °C
Explosive properties The product is considered non-explosive.
Bulk density: 200 - 600 g/l
Conbustion class: 5
Smoulder temperature: 280 °C
pmax: 10 bar
KSt: < 200 bar*m/s
Dust explosion class: ST1
Minimum ignition energy: > 10 mJ
Physical state: Powder
Colour:Whitish
Odour: characteristic
Test method
pH-Value (at 20 °C): 6 - 8 10 g/l
Changes in the physical state
Melting point: n.a.
Initial boiling point and boiling range: n.a.
Flash point: n.a



FIRST AID MEASURES of CELLULOSE ETHERS:
-Description of first-aid measures:
*If inhaled:
If breathed in, move person into fresh air.
*In case of skin contact:
Wash off with soap and plenty of water.
*In case of eye contact:
Flush eyes with water as a precaution.
*If swallowed:
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CELLULOSE ETHERS:
-Environmental precautions:
No special environmental precautions required.
-Methods and materials for containment and cleaning up:
Sweep up and shovel.
Keep in suitable, closed containers for disposal



FIRE FIGHTING MEASURES of CELLULOSE ETHERS:
-Extinguishing media:
*Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
-Further information:
No data available



EXPOSURE CONTROLS/PERSONAL PROTECTION of CELLULOSE ETHERS:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
*Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
Choose body protection in relation to its type
*Respiratory protection:
Respiratory protection is not required.
-Control of environmental exposure:
No special environmental precautions required.



HANDLING and STORAGE of CELLULOSE ETHERS:
-Precautions for safe handling:
*Hygiene measures:
General industrial hygiene practice.
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Store in cool place.
Keep container tightly closed in a dry and well-ventilated place.
*Storage class:
Storage class (TRGS 510): 13: Non Combustible Solids



STABILITY and REACTIVITY of CELLULOSE ETHERS:
-Reactivity:
No data available
-Chemical stability:
Stable under recommended storage conditions.
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
No data available



SYNONYMS:
Hydroxyethyl Cellulose,2-hydroxyethylcelluloseether
ah15
aw15(polysaccharide)
aw15[polysaccharide]
bl15
cellosize
Hydroxyethyl cellulose – Viscosity 1500 ~ 2500
5-[6-[[3,4-dihydroxy-6-(hydroxymethyl)-5-methoxyoxan-2-yl]oxymethyl]-3,4-dihydroxy-5-[4-hydroxy-3-(2-hydroxyethoxy)-6-(hydroxymethyl)-5-methoxyoxan-2-yl]oxyoxan-2-yl]oxy-6-(hydroxymethyl)-2-methyloxane-3,4-diol
2-Hydroxyethyl cellulose
Cellulose, hydroxyethyl ether
Hydroxyethylcellulose
2-Hydroxyethyl cellulose
Hyetellose
Natrosol
Cellosize
Hydroxyethyl cellulose
HS 100,000 YP2
Cellulose, 2 – hydroxyethyl ether
hydroxyethyl cellulose
Methyl 2-hydroxyethyl cellulose cas no: 9004-62-0



CELLULOSE GUM
Cellulose gum is a common food additive used to thicken and stabilize a variety of foods.
Cellulose gum harness the properties of other substances found in nature to impart useful characteristics in food. Cellulose gum can help keep foods and beverages stable so nutrients remain mixed, ensure that oil and water based ingredients don’t separate and help produce a consistent texture that consumers expect from certain foods.

CAS: 9004-32-4
MF: C6H7O2(OH)2CH2COONa
MW: 0
EINECS: 618-378-6

Synonyms
9004-32-4, sodium;2,3,4,5,6-pentahydroxyhexanal;acetate, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose cellulose carboxymethyl ether, Celluvisc (TN), Carmellose sodium (JP17), CHEMBL242021, SCHEMBL25311455, C.M.C. (TN), CHEBI:31357, Sodium carboxymethyl cellulose (MW 250000), D01544, M.W. 700000(DS=0.9), 2500 - 4500mPa.s

Cellulose gum is produced from the structural parts of certain plants, primarily trees or cotton.
Cellulose gum sources are farmed sustainably and processed using a form of acetic acid and salt.
Acetic acid is a mild acid which is a main component of vinegar.
After mixing the cotton or wood with acetic acid and salt, the mixture is filtered and dried to create a fine powder—the cellulose gum.
Cellulose gum is very useful as only a small amount needs to be added to foods to maintain moisture or increase texture and thickness.
As a result, you will often find Cellulose gum listed near the end of the ingredients list in foods.

Cellulose Gum, also known as carboxymethyl cellulose (CMC) or sodium carboxymethyl cellulose, is a common ingredient used in cosmetics.
Cellulose Gum is a white or off-white powder that serves as a versatile additive in cosmetic formulations.
Cellulose Gum is widely employed as a stabilizer, emulsifier, and thickening agent.
Cellulose Gums presence in cosmetics helps to enhance product texture, viscosity, and overall performance.
Cellulose Gum has excellent water-binding properties, contributing to improved hydration and moisture retention in skincare and hair care products.
Cellulose Gum is valued for its ability to create smooth and creamy formulations while providing stability and consistency.

Carboxymethyl cellulose (CMC) is used in a large variety of applications ranging from food production to medical treatments.
It is commonly used as a viscosity modifier or thickener, and to stabilize emulsions in various products, both food and non-food.
It is used primarily because it has high viscosity, is nontoxic, and is generally considered to be hypoallergenic, as the major source fiber is either softwood pulp or cotton linter.
Non-food products include products such as toothpaste, laxatives, diet pills, water-based paints, detergents, textile sizing, reusable heat packs, various paper products, filtration materials, synthetic membranes, wound healing applications, and also in leather crafting to help burnish edges.

Cellulose Gum Chemical Properties
Melting point: 274 °C (dec.)
Density: 1,6 g/cm3
FEMA: 2239
Storage temp: room temp
Solubility: H2O: 20 mg/mL, soluble
Form: low viscosity
Pka: 4.30(at 25℃)
Color: White to light yellow
Odor: Odorless
PH Range: 6.5 - 8.5
PH: pH (10g/l, 25℃) 6.0~8.0
Water Solubility: soluble
Merck: 14,1829
Stability: Stable. Incompatible with strong oxidizing agents.
EPA Substance Registry System: Cellulose Gum (9004-32-4)

Uses
Cellulose Gum is frequently called simply carboxymethyl cellulose and also known as cellulose gum.
Cellulose Gum is derived from purified cellulose from cotton and wood pulp.
Cellulose Gum is a water dispersible sodium salt of carboxy-methyl ether of cellulose that forms a clear colloidal solution. It is a hygroscopic material that has the ability to absorb more than 50% of water at high humidity.
Cellulose Gum is also a natural polymeric derivative that can be used in detergents, food and textile industries.
Cellulose Gum is one of the most important products of cellulose ethers, which are formed by natural cellulose modification as a kind of cellulose derivate with an ether structure.
Due to the fact that the acid form of Cellulose Gum has poor water solubility, it is usually preserved as sodium carboxymethylcellulose, which is widely used in many industries and regarded as monosodium glutamate in industry.

Cellulose Gum is used in cigarette adhesive, fabric sizing, footwear paste meal, home slimy.
Cellulose Gum is used in interior painting architectural, building lines melamine, thickening mortar, concrete enhancement.
Cellulose Gum is used in refractory fiber, ceramic production molding bond.
Cellulose Gum is used in oil drilling, exploration address slurry thickening, reducing water loss, quality paper surface sizing.
Cellulose Gum can be used as soap and washing powder detergent active additives, as well as other industrial production on the dispersion, emulsification, stability, suspension, film, paper, polishing and the like.
Quality product can be used for toothpaste, medicine, food and other industrial sectors.

Production Methods
Alkali cellulose is prepared by steeping cellulose obtained from wood pulp or cotton fibers in sodium hydroxide solution.
The alkaline cellulose is then reacted with sodium monochloroacetate to produce Cellulose Gum.
Sodium chloride and sodium glycolate are obtained as by-products of this etherification.

Synthesis
Cellulose Gum is formed when cellulose reacts with mono chloroacetic acid or its sodium salt under alkaline condition with presence of organic solvent, hydroxyl groups substituted by Sodium carboxymethyl groups in C2, C3 and C6 of glucose, which substitution slightly prevails at C2 position.
Generally, there are two steps in manufacturing process of sodium carboxymethyl cellulose, alkalinization and etherification.
Step 1: Alkalinization
Disperse the raw material cellulose pulp in alkali solution (generally sodium hydroxide, 5–50%) to obtain alkali cellulose.
Cell-OH+NaOH →Cell·O-Na+ +H2O
Step 2: Etherification
Etherification of alkali cellulose with sodium monochloroacetate (up to 30%) in an alcohol-water medium.
The mixture of alkali cellulose and reagent is heated (50–75°C) and stirred during the process.
ClCH2COOH+NaOH→ClCH2COONa+H2O
Cell·O-Na+ +ClCH2COO- →Cell-OCH2COO-Na
The DS of the sodium CMC can be controlled by the reaction conditions and use of organic solvents (such as isopropanol).
CELLULOSE GUM
Cellulose gum is the sodium salt of carboxymethyl cellulose, an anionic cellulose ether in which some of the hydroxyl groups of the cellulose molecule have been replaced with a carboxy group.
Cellulose gum is a thickening agent that is made by reacting cellulose (wood pulp, cotton lint) with a derivative of acetic acid (the acid in vinegar).
Cellulose gum is a water dispersible sodium salt of carboxy-methyl ether of cellulose that forms a clear colloidal solution.

CAS Number: 9004-32-4
EC Number: 618-378-6
Molecular Formula: [C6H7O2(OH)x(OCH2COONa)]
Molecular Weight: 262.19 g/mol

Synonyms: cellulose gum, CMC, Na CMC, Sodium cellulose glycolate, Sodium CMC, Cellulose Glycolic Acid Sodium Salt, Sodium Carboxymethyl Cellulose, Sodium Cellulose Glycolate, Sodium Tylose, Tylose Sodium, C.M.C., C.m.c., C.m.c. (TN): , Carboxymethylcellulose sodium, Carboxymethylcellulose sodium (usp), Carmellose sodium: , Carmellose sodium (JP15, Celluvisc, Celluvisc (TN): , Sodium 2,3,4,5,6-pentahydroxyhexanal acetic acid, 9004-32-4, SODIUM CARBOXYMETHYL CELLULOSE, Cellulose gum, Carboxymethyl cellulose, sodium salt, sodium;2,3,4,5,6-pentahydroxyhexanal;acetate, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose cellulose carboxymethyl ether, CMC powder, Celluvisc (TN), C8H15NaO8, Carmellose sodium (JP17), CHEMBL242021, C.M.C. (TN), CHEBI:31357, E466, K625, D01544, Carboxymethyl cellulose sodium - Viscosity 100 - 300 mPa.s, Cellulose Glycolic Acid Sodium Salt (n=approx. 500), Sodium Carboxymethyl Cellulose (n=approx. 500)Sodium Cellulose Glycolate (n=approx. 500), Sodium Tylose (n=approx. 500), Tylose Sodium (n=approx. 500), 12M31Xp, 1400Lc, 2000Mh, 30000A, 7H3Sf, 7H3Sx, 7H4Xf, 7L2C, 7Mxf, 9H4F-Cmc, 9H4Xf, 9M31X, 9M31Xf, AG, Ac-Of-Sol, Antizol, Aoih, Aquacel, Aquaplast, Blanose, CMC, CMC-Na, Cellcosan, Cellofas, Cellogen, Cellpro, Cellugel, Cepol, Cmc-Clt, Cmc-Lvt, Cmcna, Collowel, Covagel, Dehydazol, Diko, Dissolvo, Dte-Nv, Ethoxose, F-Sl, Finnfix, Hpc-Mfp, KMTs, Kiccolate, Lovosa, Lucel, Marpolose, Micell, Natrium-Carboxymethyl-Cellulose, Nymcel, Orabase, PATs-V, Pac-R, Relatin, Scmc, Serogel, Sichozell, Sunrose, T.P.T, VinoStab, Yo-Eh, Yo-L, Yo-M, Substituents:: , Hexose monosaccharide, Medium-chain aldehyde, Beta-hydroxy aldehyde, Acetate salt, Alpha-hydroxyaldehyde, Carboxylic acid salt, Secondary alcohol, Carboxylic acid derivative, Carboxylic acid, Organic alkali metal salt, Monocarboxylic acid or derivatives, Polyol, Organic sodium salt, Aldehyde, Hydrocarbon derivative, Alcohol, Organic oxide, Carbonyl group, Primary alcohol, Organic salt, Organic zwitterion, Aliphatic acyclic compound, Carboxymethyl cellulose, Cellulose, carboxymethyl ether, 7H3SF, AC-Di-sol. NF, AKU-W 515, Aquaplast, Avicel RC/CL, B 10, B 10 (Polysaccharide), Blanose BS 190, Blanose BWM, CM-Cellulose sodium salt, CMC, CMC 2, CMC 3M5T, CMC 41A, CMC 4H1, CMC 4M6, CMC 7H, CMC 7H3SF, CMC 7L1, NCMC 7M, CMC 7MT, CMC sodium salt, Carbose 1M, Carboxymethylcellulose sodium salt, Carboxymethylcellulose sodium, low-substituted, Carmellose sodium, low-substituted, Carmethose, Cellofas, Cellofas B, Cellofas B5, Cellofas B50, Cellofas B6, Cellofas C, Cellogel C, Cellogen 3H, Cellogen PR, Cellogen WS-C, Cellpro, Cellufix FF 100, Cellufresh, Cellugel, Cellulose carboxymethyl ether sodium salt, Cellulose glycolic acid, sodium salt, Cellulose gum, Cellulose sodium glycolate, Cellulose, carboxymethyl ether, sodium salt, low-substituted, Celluvisc, Collowel, Copagel PB 25, Courlose A 590, Courlose A 610, Courlose A 650, Courlose F 1000G, Courlose F 20, Courlose F 370, Courlose F 4, Courlose F 8, Daicel 1150, Daicel 1180, Edifas B, Ethoxose, Fine Gum HES, Glikocel TA, KMTs 212, KMTs 300, KMTs 500, KMTs 600, Lovosa, Lovosa 20alk., Lovosa TN, Lucel (polysaccharide), Majol PLX, Modocoll 1200, NaCm-cellulose salt, Nymcel S, Nymcel ZSB 10, Nymcel ZSB 16, Nymcel slc-T, Polyfibron 120, Refresh Plus, Cellufresh Formula, S 75M, Sanlose SN 20A, Sarcell TEL, Sodium CM-cellulose, Sodium CMC, Sodium carboxmethylcellulose, Sodium carboxymethyl cellulose, Sodium carboxymethylcellulose, Sodium cellulose glycolate, Sodium glycolate cellulose, Sodium salt of carboxymethylcellulose, Tylose 666; Tylose C, Tylose C 1000P, Tylose C 30, Tylose C 300, Tylose C 600, Tylose CB 200, Tylose CB series, Tylose CBR 400, Tylose CBR seriesÜ Tylose CBS 30, Tylose CBS 70, Tylose CR, Tylose CR 50, Tylose DKL, Unisol RH, Carboxymethyl cellulose, sodium salt, Cellulose, carboxymethyl ether, sodium salt, Orabase, Cellulose carboxymethyl ether, sodium salt, Cethylose, Cel-O-Brandt, Glykocellon, Carbose D, Xylo-Mucine, Tylose MGA, Cellolax, Polycell, SODIUM CARBOXYMETHYL CELLULOSE, 9004-32-4, sodium;2,3,4,5,6-pentahydroxyhexanal;acetate, UNII-NTZ4DNW8J6, UNII-6QM647NAYU, UNII-WR51BRI81M, UNII-7F32ERV10S, Carboxymethylcelulose, sodium salt, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose sodium [USP], Sodium carboxymethyl cellulose; (Dowex 11), CMC powder, Celluvisc (TN), Carmellose sodium (JP17), CHEMBL242021, C.M.C. (TN), CHEBI:31357, E466, Sodium carboxymethyl cellulose (MW 250000), D01544, Acétate de sodium - hexose (1:1:1) [French] [ACD/IUPAC Name], Natriumacetat -hexose (1:1:1) [German] [ACD/IUPAC Name], Sodium acetate - hexose (1:1:1) [ACD/IUPAC Name], [9004-32-4] [RN], 9004-32-4 [RN], C.M.C. [Trade name], CARBOXYMETHYL CELLULOSE, SODIUM SALT, Carboxymethylcellulose sodium [USP], Carmellose sodium [JP15], Celluvisc [Trade name], cmc, MFCD00081472

Cellulose gum or cellulose gum is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose gum is often used as its sodium salt, Cellulose gum.
Cellulose gum used to be marketed under the name Tylose, a registered trademark of SE Tylose.

Cellulose gum is an anionic water-soluble polymer derived from cellulose by etherification, substituting the hydroxyl groups with carboxymethyl groups on the cellulose chain.

Cellulose gum is a water dispersible sodium salt of carboxy-methyl ether of cellulose that forms a clear colloidal solution.
Cellulose gum is a hygroscopic material that has the ability to absorb more than 50% of water at high humidity.
Cellulose gum is also a natural polymeric derivative that can be used in detergents, food and textile industries.

Cellulose gum, the most widely used water-based biopolymer binder in the laboratory at present, is a linear derivative of cellulose substituted by β–linked glucopyranose residues and carboxymethyl groups.

Cellulose gum is the sodium salt of carboxymethyl cellulose, an anionic cellulose ether in which some of the hydroxyl groups of the cellulose molecule have been replaced with a carboxy group.
Cellulose gum, also referred to as E 466, is an efficient thickener and binder for water based applications including adhesives, coatings, inks, gel packs, drilling mud and battery electrodes.

Cellulose gum is the sodium salt of cellulose arboxymethyl and frequently used as viscous agent, paste and barrier agent.

Cellulose gum is a cellulose derivative that consists of the cellulose backbone made up of glucopyranose monomers and their hydroxyl groups bound to carboxymethyl groups.
Cellulose gum is added in food products as a viscosity modifier or thickener and emulsifier.
Cellulose gum is also one of the most common viscous polymers used in artificial tears, and has shown to be effective in the treatment of aqueous tear-deficient dry eye symptoms and ocular surface staining.

The viscous and mucoadhesive properties as well as Cellulose gum anionic charge allow prolonged retention time in the ocular surface.
Cellulose gum is the most commonly used salt.

Cellulose gum is one of the important modified cellulose, a water-soluble cellulose, which is widely used in many application of food, pharmaceuticals, detergent, paper coating, dispersing agent, and others.
Cellulose gum addition possibly increases the hydrogenation and dehydrogenation features of Magnesium.

Cellulose gum is a thickening agent that is made by reacting cellulose (wood pulp, cotton lint) with a derivative of acetic acid (the acid in vinegar).
Cellulose gum is also called E 466.

Cellulose gum has long been considered safe, but a 2015 study funded by the National Institutes of Health raised some doubts.
Cellulose gum found that both Cellulose gum and another emulsifier (polysorbate 80) affected gut bacteria and triggered inflam­matory bowel disease symptoms and other changes in the gut, as well as obesity and a set of obesity-related disease risk factors known as metabolic syndrome.

In mice that were predisposed to colitis, the emulsifiers promoted the disease.
Cellulose gum is possible that polysorbates, Cellulose gum, and other emulsifiers act like detergents to disrupt the mucous layer that lines the gut, and that the results of the study may apply to other emulsifiers as well.
Research is needed to determine long-term effects of these and other emulsifiers at levels that people consume.

Cellulose gum is not absorbed or digested, so the FDA allows Cellulose gum to be included with “dietary fiber” on food labels.
Cellulose gum isn’t as healthful as fiber that comes from natural foods.

Cellulose gum is an anionic water-soluble polymer based on renewable cellulosic raw material.
Cellulose gum functions as a rheology modifier, binder, dispersant, and an excellent film former.
These attributes make Cellulose gum a preferred choice as a bio-based hydrocolloid in multiple applications.

Cellulose gum or E 466 is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose gum, Sodium Salt is the most often used form of E 466.

Cellulose gum is used in a variety of industries as a thickener and/or to prepare stable emulsions in both food and non-food products.
Insoluble microgranular Cellulose gum is used as a cation-exchange resin in ion-exchange chromatography for purification of proteins.
Cellulose gum has also been used extensively to characterize enzyme activity from endoglucanases (part of the cellulase complex).

Cellulose gum can be used to stabilize palladized iron nanoparticles, which can further be utilized in the dichlorination of contaminated subsurfaces.
Cellulose gum may also be used as a polymeric matrix to form a composite with a crystalline nanofibril for the development of sustainable bio-based polymers.
Cellulose gum can also bind with a hard carbon electrode for the fabrication of sodium ion-batteries.

Cellulose gum is a water dispersible sodium salt of carboxy-methyl ether of cellulose that forms a clear colloidal solution.
Cellulose gum is a hygroscopic material that has the ability to absorb more than 50% of water at high humidity.
Cellulose gum is also a natural polymeric derivative that can be used in detergents, food and textile industries.

Cellulose gum is an anionic polymer with a clarified solution dissolved in cold or hot water.
Cellulose gum functions as a thickening rheology modifier, moisture retention agent, texture/body building agent, suspension agent, and binding agent in personal products and toothpaste.

Adding Cellulose gum into toothpaste has obvious effects in binding and body structure.
Due to Cellulose gum's good uniform substitution ability, excellent salt tolerance and acid resistance, the toothpaste can be easily extruded and show better appearance, and impart a smooth and comfortable toothfeel.

Cellulose gum, sodium appears as white, fibrous, free-flowing powder, and is used commonly as an FDA-approved disintegrant in pharmaceutical manufacturing.
Disintegrants facilitate the breakup of a tablet in the intestinal tract after oral administration.
Without a disintegrant, tablets may not dissolve appropriately and may effect the amount of active ingredient absorbed, thereby decreasing effectiveness.

According to the FDA Select Committee on GRAS food Substances, Cellulose gum is virtually unabsorbed.
Cellulose gum is generally regarded as safe when used in normal quantities.

Cellulose gum is the sodium salt of a carboxymethyl ether of cellulose obtained from plant material.
In essence, Cellulose gum is a chemically modified cellulose that has a carboxymethyl ether group (-O-CH2-COO-) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.

Cellulose gum is available in different degrees of substitution, generally in the range 0.6 – 0.95 derivatives per monomer unit, and molecular weights.
Commercial grades of Cellulose gum are supplied as white to almost white, odourless, tasteless, granular powders.

Cellulose gum is a derivative of cellulose, in which part of the hydroxyl is linked to a carboxymethyl group (–CH2–COOH) as ether.
Cellulose gums are not soluble in water in an acidic form, but they dissolve well in basic solvents.

They are used, e.g., to monitor filtration or to increase the viscosity of drilling fluids.
Cellulose gum is available in different viscosity grades and purity levels.

Cellulose gum is able to form solid gels.
Cellulose gum also strengthens the effect of emulsifiers and prevents undesirable substantive lumps.

As Cellulose gum forms robust, smooth films, Cellulose gum is also used as a coating agent.
Cellulose gum is the only cellulose derivative that can also form and stabilize foams.

Cellulose gum is derived from natural cellulose, or plant fibre.
In Cellulose gum dry form, it’s an odourless and flavourless white, grey or yellow powder that dissolves in water.
When used in cosmetics, Cellulose gum stops lotions and creams from separating and controls the thickness and texture of liquids, creams and gels.

Cellulose gum (technically, Carboxymethylcelluloses) is a family of chemically modified cellulose derivatives containing the carboxymethyl ether group (-O-CH2-COO-) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
When Cellulose gum is recovered and presented as the Sodium salt, the resulting polymer is what is known as Cellulose gum, and has the general chemical formula, [C6H7O2(OH)x(OCH2COONa)y]n.

Cellulose gum was discovered shortly after Word War 1 and has been produced commercially since the early 1930s.
Cellulose gum is produced by treating cellulose with an aqueous sodium hydroxide solution followed by monochloroacetic acid or Cellulose gum sodium salt.

In a parallel reaction two by-products, sodium chloride and sodium glycolate, are produced.
Once these by-products are removed, high purity Cellulose gum is obtained.

As a general rule, the obtained material has a slight excess of sodium hydroxide and has to be neutralised.
The neutralisation endpoint can affect the properties of Cellulose gum.
In the final step, Cellulose gum is dried, milled to the desired particle size, and packaged.

Food and pharmaceutical grade Cellulose gum is required by law to contain not less than 99.5% pure Cellulose gum and a maximum of 0.5% of residual salts (sodium chloride and sodium glycolate).
The degree of substitution (DS) can vary between 0.2-1.5, although Cellulose gum is generally in the range of 0.6-0.95.

The DS determines the behaviour of Cellulose gum in water: Grades with DS >0.6 form colloidal solutions in water that are transparent and clear, i.e the higher the content of carboxymethyl groups, the higher the solubility and smoother the solutions obtained.
Cellulose gum with a DS below 0.6 tends to be only partially soluble.

Cellulose gum is available as a white to almost white, odourless, tasteless, granular powder.

Cellulose gum is the sodium salt of a carboxymethyl ether of 13 cellulose.
Cellulose gum contains not less than 6.0 percent and not more than 12.0 percent of 14 sodium (Na) on the dried basis, corresponding to 0.53 -1.45 degree of 15 substitution.

Applications of Cellulose gum:
Cellulose gum (CMC, methyl cellulose, Methylcellulose) is a modified E 466 (Thickener is E461).
Cellulose gum tends to give clear, slightly gummy, solutions.

They are generally soluble in cold water and insoluble in hot.
Cellulose gum is used to thicken dry mix beverage, syrups, ripples and ice cream, and also to stabilise ice cream, batters and sour milk.
Cellulose gum gives moisture retention to cake mixes and water binding and thickening to icings.

Cellulose gum can be used as a binder in the preparation of graphene nano-platelet based inks for the fabrication of dye sensitized solar cells (DSSCs).
Cellulose gum can also be used as a viscosity enhancer in the development of tyrosinase based inks for the formation of electrodes for biosensor applications.
Cellulose gum is used as a support material for a variety of cathodes and anodes for microbial fuel cells.

Cellulose gum is used as a highly effective additive to improve Cellulose gum and processing properties in various fields of application - from foodstuffs, cosmetics and pharmaceuticals to products for the paper and textile industries.

Building material additives, printing inks, coatings, pharmaceuticals, food, cosmetics, paper or textiles – there’s a long and growing list of applications.
Special-purpose cellulose derivatives produced by Wolff Cellulosics provide invisible yet indispensable benefits in countless everyday products.

Fields of Application:
Our cellulosic products perform all kinds of different functions in the various fields of application.

Their capabilities include:
Water retention
Gelling
Emulsifying
Suspending
Absorbing
Stabilising
Bonding
Forming films

Cellulose gum is also used in numerous medical applications.

Some examples include:
Device for epistaxis (nose bleeding).
A poly-vinyl chloride (PVC) balloon is covered by Cellulose gum knitted fabric reinforced by nylon.

The device is soaked in water to form a gel, which is inserted into the nose of the balloon and inflated.
The combination of the inflated balloon and the therapeutic effect of the Cellulose gum stops the bleeding.

Fabric used as a dressing following ear nose and throat surgical procedures.

Water is added to form a gel, and this gel is inserted into the sinus cavity following surgery.
In ophthalmology, Cellulose gum is used as a lubricating agent in artificial tears solutions for the treatment of dry eyes.

In veterinary medicine, Cellulose gum is used in abdominal surgeries in large animals, particularly horses, to prevent the formation of bowel adhesions.

Research applications:
Insoluble Cellulose gum (water-insoluble) can be used in the purification of proteins, particularly in the form of charged filtration membranes or as granules in cation-exchange resins for ion-exchange chromatography.
Cellulose gum low solubility is a result of a lower DS value (the number of carboxymethyl groups per anhydroglucose unit in the cellulose chain) compared to soluble Cellulose gum.

Insoluble Cellulose gum offers physical properties similar to insoluble cellulose, while the negatively charged carboxylate groups allow Cellulose gum to bind to positively charged proteins.
Insoluble Cellulose gum can also be chemically cross-linked to enhance the mechanical strength of Cellulose gum.

Moreover, Cellulose gum has been used extensively to characterize enzyme activity from endoglucanases (part of the cellulase complex); Cellulose gum is a highly specific substrate for endo-acting cellulases, as Cellulose gum structure has been engineered to decrystallize cellulose and create amorphous sites that are ideal for endoglucanase action.
Cellulose gum is desirable because the catalysis product (glucose) is easily measured using a reducing sugar assay, such as 3,5-dinitrosalicylic acid.

Using Cellulose gum in enzyme assays is especially important in screening for cellulase enzymes that are needed for more efficient cellulosic ethanol conversion.
Cellulose gum was misused in early work with cellulase enzymes, as many had associated whole cellulase activity with Cellulose gum hydrolysis.
As the mechanism of cellulose depolymerization became better understood, Cellulose gum became clear that exo-cellulases are dominant in the degradation of crystalline (e.g. Avicel) and not soluble (e.g. Cellulose gum) cellulose.

In food applications:
Cellulose gum is used as a stabiliser, thickener, film former, suspending agent and extender.
Applications include ice cream, dressings, pies, sauces, and puddings.
Cellulose gum is available in various viscosities depending on the function Cellulose gum is to serve.

In non food applications:
Cellulose gum is sold under a variety of trade names and is used as a thickener and emulsifier in various cosmetic products, and also as a treatment of constipation.
Like cellulose, Cellulose gum is not digestible, not toxic, and not allergenic.
Some practitioners are using this for weight loss.

Treatment of constipation:
When eaten, methylcellulose is not absorbed by the intestines but passes through the digestive tract undisturbed.
Cellulose gum attracts large amounts of water into the colon, producing a softer and bulkier stool.

Cellulose gum is used to treat constipation, diverticulosis, hemorrhoids and irritable bowel syndrome.
Cellulose gum should be taken with sufficient amounts of fluid to prevent dehydration.
Because Cellulose gum absorbs water and potentially toxic materials and increases viscosity, Cellulose gum can also be used to treat diarrhea.

Lubricant:
Methylcellulose is used as a variable viscosity personal lubricant; Cellulose gum is the main ingredient in K-Y Jelly.

Artificial tears and saliva:
Solutions containing methylcellulose or similar cellulose derivatives are used as substitute for tears or saliva if the natural production of these fluids is disturbed.

Paper and textile sizing:
Methylcellulose is used as sizing in the production of papers and textiles.
Cellulose gum protects the fibers from absorbing water or oil.

Special effects:
The slimy, gooey appearance of an appropriate preparation of methylcellulose with water, in addition to Cellulose gum non-toxic, non-allergenic, and edible properties, makes Cellulose gum popular for use in special effects for motion pictures and television wherever vile slimes must be simulated.
In the film Ghostbusters, for example, the gooey substance that supernatural entities used to “slime” the Ghostbusters was mostly a thick water solution of methylcellulose.

Cellulose gum is also often used in the pornographic industry to simulate semen in large quantity, in order to shoot movies related to bukkake fetish.
Cellulose gum is preferable to food-based fake semen (e.g., condensed milk) because this last solution can often cause problems, especially when the ingredient used contains sugar.
Sugar is thought to encourage yeast infection when Cellulose gum is injected in the vagina.

Applications in Pharmaceutical Formulations or Technology:
Cellulose gum (technically, Carboxymethylcelluloses) is a family of chemically modified cellulose derivatives containing the carboxymethyl ether group (-O-CH2-COO-) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
When Cellulose gum is recovered and presented as the Sodium salt, the resulting polymer is what is known as Cellulose gum, and has the general chemical formula, [C6H7O2(OH)x(OCH2COONa)y]n.

Cellulose gum was discovered shortly after Word War 1 and has been produced commercially since the early 1930s.
Cellulose gum is produced by treating cellulose with an aqueous sodium hydroxide solution followed by monochloroacetic acid or Cellulose gum sodium salt.

In a parallel reaction two by-products, sodium chloride and sodium glycolate, are produced.
Once these by-products are removed, high purity Sodium Cellulose gum is obtained.

As a general rule, the obtained material has a slight excess of sodium hydroxide and has to be neutralised.
The neutralisation endpoint can affect the properties of Cellulose gum.
In the final step, Cellulose gum is dried, milled to the desired particle size, and packaged.

Food and pharmaceutical grade Cellulose gum is required by law to contain not less than 99.5% pure Cellulose gum and a maximum of 0.5% of residual salts (sodium chloride and sodium glycolate).
The degree of substitution (DS) can vary between 0.2-1.5, although Cellulose gum is generally in the range of 0.6-0.95.

The DS determines the behaviour of Cellulose gum in water: Grades with DS >0.6 form colloidal solutions in water that are transparent and clear, i.e the higher the content of carboxymethyl groups, the higher the solubility and smoother the solutions obtained.
Cellulose gum with a DS below 0.6 tends to be only partially soluble.

Cellulose gum is available as a white to almost white, odourless, tasteless, granular powder.

Uses of Cellulose gum:
Cellulose gum is used in drilling muds, detergents, resin emulsion paints, adhesives, printing inks, and textile sizes.
Cellulose gum is also used as a protective colloid, a stabilizer for foods, and a pharmaceutical additive.

Cellulose gum is used as a bulk laxative, emulsifier and thickener in cosmetics and pharmaceuticals, and stabilizer for reagents.
Cellulose gum is formerly registered in the US for use as an insecticide for ornamental and flowering plants.

Cellulose gum is permitted for use as an inert ingredient in non-food pesticide products.
Cellulose gum is used as an anticaking agent, drying agent, emulsifier, formulation aid, humectant, stabilizer or thickener, and texturizer in foods.

Introduction:
Cellulose gum is used in a variety of applications ranging from food production to medical treatments.
Cellulose gum is commonly used as a viscosity modifier or thickener, and to stabilize emulsions in various products, both food and non-food.

Cellulose gum is used primarily because Cellulose gum has high viscosity, is nontoxic, and is generally considered to be hypoallergenic, as the major source fiber is either softwood pulp or cotton linter.
Non-food products include products such as toothpaste, laxatives, diet pills, water-based paints, detergents, textile sizing, reusable heat packs, various paper products, filtration materials, synthetic membranes, wound healing applications, and also in leather crafting to help burnish edges.

Food science:
Cellulose gum is used in food under the E number E466 or E469 (when Cellulose gum is enzymatically hydrolyzed), as a viscosity modifier or thickener, and to stabilize emulsions in various products, including ice cream.
Cellulose gum is also used extensively in gluten-free and reduced-fat food products.

Cellulose gum is used to achieve tartrate or cold stability in wine, an innovation that may save megawatts of electricity used to chill wine in warm climates.
Cellulose gum is more stable than metatartaric acid and is very effective in inhibiting tartrate precipitation.
Cellulose gum is reported that KHT crystals, in presence of Cellulose gum, grow slower and change their morphology.

Their shape becomes flatter because they lose 2 of the 7 faces, changing their dimensions.
Cellulose gum molecules, negatively charged at wine pH, interact with the electropositive surface of the crystals, where potassium ions are accumulated.
The slower growth of the crystals and the modification of their shape are caused by the competition between Cellulose gum molecules and bitartrate ions for binding to the KHT crystals.

Specific culinary uses:
Cellulose gum powder is widely used in the ice cream industry, to make ice creams without churning or extremely low temperatures, thereby eliminating the need for conventional churners or salt ice mixes.
Cellulose gum is used in baking breads and cakes.
The use of Cellulose gum gives the loaf an improved quality at a reduced cost, by reducing the need of fat.

Cellulose gum is also used as an emulsifier in biscuits.
By dispersing fat uniformly in the dough, Cellulose gum improves the release of the dough from the moulds and cutters, achieving well-shaped biscuits without any distorted edges.
Cellulose gum can also help to reduce the amount of egg yolk or fat used in making the biscuits.

Use of Cellulose gum in candy preparation ensures smooth dispersion in flavor oils, and improves texture and quality.
Cellulose gum is used in chewing gums, margarines and peanut butter as an emulsifier.

Other uses:
In laundry detergents, Cellulose gum is used as a soil suspension polymer designed to deposit onto cotton and other cellulosic fabrics, creating a negatively charged barrier to soils in the wash solution.
Cellulose gum is also used as a thickening agent, for example, in the oil-drilling industry as an ingredient of drilling mud, where Cellulose gumacts as a viscosity modifier and water retention agent.

Cellulose gum is sometimes used as an electrode binder in advanced battery applications (i.e. lithium ion batteries), especially with graphite anodes.
Cellulose gum's water solubility allows for less toxic and costly processing than with non-water-soluble binders, like the traditional polyvinylidene fluoride (PVDF), which requires toxic n-methylpyrrolidone (NMP) for processing.
Cellulose gum is often used in conjunction with styrene-butadiene rubber (SBR) for electrodes requiring extra flexibility, e.g. for use with silicon-containing anodes.

Cellulose gum is also used in ice packs to form a eutectic mixture resulting in a lower freezing point, and therefore more cooling capacity than ice.

Aqueous solutions of Cellulose gum have also been used to disperse carbon nanotubes, where the long Cellulose gum molecules are thought to wrap around the nanotubes, allowing them to be dispersed in water.

In conservation-restoration, Cellulose gumis used as an adhesive or fixative (commercial name Walocel, Klucel).

Industrial Processes with risk of exposure:
Petroleum Production and Refining
Textiles (Fiber & Fabric Manufacturing)
Painting (Pigments, Binders, and Biocides)
Working with Glues and Adhesives
Farming (Pesticides)

Adverse reactions of Cellulose gum:
Effects on inflammation, microbiota-related metabolic syndrome, and colitis are a subject of research.
Cellulose gum is suggested as a possible cause of inflammation of the gut, through alteration of the human gastrointestinal microbiota, and has been suggested as a triggering factor in inflammatory bowel diseases such as ulcerative colitis and Crohn's disease.

While thought to be uncommon, case reports of severe reactions to Cellulose gum exist.
Skin testing is believed to be a useful diagnostic tool for this purpose.
Cellulose gum was the active ingredient in an eye drop brand Ezricare Artificial Tears which was recalled due to potential bacterial contamination.

Preparation of Cellulose gum:
Cellulose gum is synthesized by the alkali-catalyzed reaction of cellulose with chloroacetic acid.
The polar (organic acid) carboxyl groups render the cellulose soluble and chemically reactive.
Fabrics made of cellulose—e.g. cotton or viscose rayon—may also be converted into Cellulose gum.

Following the initial reaction, the resultant mixture produces approximately 60% Cellulose gum and 40% salts (sodium chloride and sodium glycolate).
Cellulose gum is the so-called technical Cellulose gum, which is used in detergents.

An additional purification process is used to remove salts to produce pure Cellulose gum, which is used for alimentary and pharmaceutical applications.
An intermediate "semi-purified" grade is also produced, typically used in paper applications such as the restoration of archival documents.

Structure and properties of Cellulose gum:
The functional properties of Cellulose gum depend on the degree of substitution of the cellulose structure [i.e., how many of the hydroxyl groups have been converted to carboxymethylene(oxy) groups in the substitution reaction], as well as the chain length of the cellulose backbone structure and the degree of clustering of the carboxymethyl substituents.

Structure:
Cellulose gum is typical ionic-type cellulose ether and the frequently used product is Cellulose gum sodium salt, as well as ammonium and aluminum salts.
Sometimes, Cellulose gum acids can be produced.

When degree of substitution (that is, the average value of hydroxyl groups reacted with the substitution of each anhydrous glucose monomer) is 1, Cellulose gum molecular formula is [C6H7O2 (OH) 2OCH2COONa] n.
With drying at the temperature of 105℃ and constant weight, the content of sodium is 6.98-8.5%.

Appearance and Solubility:
The pure Cellulose gum is white or milk white fibrous powder or particles, odorless and tasteless.
Cellulose gumis insoluble in organic solvents such as methanol, alcohol, diethyl ether, acetone, chloroform and benzene but soluble in water.
Degree of substitution is an important factor influencing water solubility and the viscosity of Cellulose gum also has a great effect on the water solubility.

In general when the viscosity is within 25-50Pa•s and the degree of substitution is about 0.3, Cellulose gumshows alkaline solubility and while the degree of substitution is over 0.4, Cellulose gumshows water solubility.
With the rise of DS, the transparency of solution improves accordingly.
In addition, the replacement homogeneity also has an great effect on the solubility.

Hygroscopicity:
Cellulose gum equilibrium water content will increase with the rise of air humidity but decrease with the rise of temperature.
At room temperature and average humidity of 80-85%, the equilibrium water content is more than 26% but moisture content in Cellulose gums is lower than 10%, lower than the former.
As far as Cellulose gum shape is concerned, even if the water content is about 15%, there seems no difference in appearance.

However, when the moisture content reaches above 20%, inter-particle mutual adhesion can be perceived and the higher the viscosity is, the more evident Cellulose gumwill become.
For these polarized high-molecular compounds like Cellulose gum, the hygroscopic degree is not only affected by the relative humidity but also by the number of polarity.

The higher the degree os substitution is, that is, the larger the number of polarity, the stronger the hygroscopicity will be.
Moreover, crystallinity also affects Cellulose gumand the higher the crystallinity is, the smaller the hygroscopic will be.

Compatibility:
Cellulose gum has good compatibility with other kinds of water-soluble glues, softeners and resin.
For example, Cellulose gumis compatible with animal glues, dimethoxy dimethylurea gel, Arabic gum, pectin, tragacanth gum, ethylene glycol, sorbitol, glycerol, invert sugar, soluble starch and sodium alginate.

Cellulose gumis also compatible with casein, Cellulose gum of melamine- formaldehyde resin and ethylene glycol, urea formaldehyde ethylene glycol resin, methyl cellulose, polyvinyl alcohol (PVA), phosphate nitrilotriacetic acid, and sodium silicate but the degree is slightly poorer.
1% Cellulose gum solution is compatible with most inorganic salts.

Dissociation Constant:
In the giant polymer matrix of Cellulose gum, there are plenty of electrolyzing groups (carboxymethyl groups).
The acidity is similar to that of acetic acid and the dissociation constant is 5×10-5.
The dissociation strength has an considerable effect on the electrical properties of Cellulose gum.

Biochemical Properties:
Although Cellulose gum solution is difficult to get rotten than natural gums, under certain conditions, some microbes enable Cellulose gumto get rotten, especially with cellulose and taka-amylase reactions, leading to the decrease of solution viscosity.
The higher the DS of Cellulose gum is, the less Cellulose gumwill be affected by enzymes and this is because the side chain linked with glucose residues prevents enzymolysis.

Since the enzyme action leads to the breakage of Cellulose gum main chain and generates reducing sugar, in this way the degree of polymerization will decrease and the solution viscosity will accordingly decrease.
The digestive enzymes within human body can have no decomposition on Cellulose gum and Cellulose gum has no decomposition in acid or alkaline digestive juice.

Handling and storage of Cellulose gum:

Conditions for safe storage, including any incompatibilities:

Storage conditions:
Tightly closed.
Dry.

Stability and reactivity of Cellulose gum:

Reactivity:
The following applies in general to flammable organic substances and mixtures: in correspondingly fine distribution, when whirled up a dust explosion potential may generally be assumed.

Chemical stability:
Cellulose gum is chemically stable under standard ambient conditions (room temperature).

Possibility of hazardous reactions:

Violent reactions possible with:
strong oxidising agents

Conditions to avoid:
no information available

Incompatible materials:
No data available

First aid measures of Cellulose gum:

If inhaled:

After inhalation:
Fresh air.

In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.

In case of eye contact:

After eye contact:
Rinse out with plenty of water.
Remove contact lenses.

If swallowed:

After swallowing:
Make victim drink water (two glasses at most).
Consult doctor if feeling unwell.

Indication of any immediate medical attention and special treatment needed:
No data available

Firefighting measures of Cellulose gum:

Suitable extinguishing media:
Water Foam Carbon dioxide (CO2) Dry powder

Unsuitable extinguishing media:
For Cellulose gum no limitations of extinguishing agents are given.

Special hazards arising from Cellulose gum or mixture:
Nature of decomposition products not known.
Combustible.
Development of hazardous combustion gases or vapours possible in the event of fire.

Advice for firefighters:
In the event of fire, wear self-contained breathing apparatus.

Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.

Accidental release measures of Cellulose gum:

Personal precautions, protective equipment and emergency procedures:

Advice for non-emergency personnel:
Avoid inhalation of dusts.
Evacuate the danger area, observe emergency procedures, consult an expert.

Environmental precautions:
Do not let product enter drains.

Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.

Observe possible material restrictions.
Take up dry.

Dispose of properly.
Clean up affected area.
Avoid generation of dusts.

Identifiers of Cellulose gum:
CAS Number: 9004-32-4
ChEBI: CHEBI:85146
ChEMBL: ChEMBL1909054
ChemSpider: none
ECHA InfoCard: 100.120.377
E number: E466 (thickeners, ...)
UNII: 05JZI7B19X
CompTox Dashboard (EPA): DTXSID7040441

EC / List no.: 618-378-6
CAS no.: 9004-32-4

Synonym(s): Carboxymethylcellulose sodium salt
CAS Number: 9004-32-4
MDL number: MFCD00081472
NACRES: NA.23

ChEBI: CHEBI:85146
ChEMBL: ChEMBL1909054
ChemSpider: none
ECHA InfoCard: 100.120.377
E number: E466 (thickeners, ...)
UNII: 05JZI7B19X
CompTox Dashboard (EPA): DTXSID7040441
Chemical formula: C8H15NaO8
Molar mass: variable
SMILES: CC(=O)[O-].C(C(C(C(C(C=O)O)O)O)O)O.[Na+]
InChI Key: QMGYPNKICQJHLN-UHFFFAOYSA-M
InChI: InChI=1S/C6H12O6.C2H4O2.Na/c7-1-3(9)5(11)6(12)4(10)2-8;1-2(3)4;/h1,3-6,8-12H,2H2;1H3,(H,3,4);/q;;+1/p-1

Product Number: C0603
Molecular Formula / Molecular Weight: [C6H7O2(OH)x(OCH2COONa)y]__n
Physical State (20 deg.C): Solid
Store Under Inert Gas: Store under inert gas
Condition to Avoid: Hygroscopic
CAS RN: 9004-32-4
Merck Index (14): 1829
MDL Number: MFCD00081472

Physical state at 20 °C: Solid:
Colour: Almost white powder:
Odour: Odorless
pH value: 6.5 - 8.5
Density [g/cm3]: 1.59:
Solubility in water [% weight]: Soluble in water

Physical State: Solid
Solubility: Soluble in water (20 mg/ml).
Storage: Store at room temperature

Properties of Cellulose gum:
form: powder
Quality Level: 200
autoignition temp.: 698 °F
mol wt: average Mw ~700,000
extent of labeling: 0.9 carboxymethyl groups per anhydroglucose unit
mp: 270 °C (dec.)
InChI: 1S/C6H12O6.C2H4O2.Na/c7-1-3(9)5(11)6(12)4(10)2-8;1-2(3)4;/h1,3-6,8-12H,2H2;1H3,(H,3,4);
InChI key: DPXJVFZANSGRMM-UHFFFAOYSA-N

logP: -3.6:
pKa (Strongest Acidic): 11.8
pKa (Strongest Basic): -3
Physiological Charge: 0
Hydrogen Acceptor Count: 6
Hydrogen Donor Count: 5
Polar Surface Area: 118.22 Ų
Rotatable Bond Count: 5
Refractivity: 37.35 m³·mol⁻¹
Polarizability: 16.07 ų
Number of Rings: 0
Bioavailability: Yes
Rule of Five: Yes
Ghose Filter: No
Veber's Rule: No
MDDR-like Rule: No

Appearance: Off white to cream colored powder
Assay (as Na; HClO4 titration, on anhydrous basis): 6.5 - 9.5%
Identity: Passes test
pH (1% solution): 6.5 - 8.0
Viscosity (1% solution; 20°C on dried basis): 250 - 350 cps
Appearance of solution: Passes test
Insoluble matter in water: Passes test
Loss on drying (at 105°C): Max 10%
Sulphated Ash (as SO4; on dried basis): 20 - 29.3%
Chloride (Cl): Max 0.25%
Sodium glycolate: Max 0.4%
Heavy metal (as Pb): Max 0.002%
Arsenic (As): Max 0.0003%
Iron (Fe): Max 0.02%

Condition to Avoid: Hygroscopic
Content(Na,Drying substance): 6.0 to 8.5 %
Drying loss: max. 10.0 %
Etherification value( as Drying substance): 0.5 to 0.8
Merck Index (14): 1829
Physical State (20 deg.C): Solid
PubChem Substance ID: 87565248
RTECS#: FJ5950000
Store Under Inert Gas: Store under inert gas
Viscosity: 500.0 to 900.0 mPa-s(2 %, H2O, 25 deg-C)

Molecular Weight: 262.19 g/mol
Hydrogen Bond Donor Count: 5
Hydrogen Bond Acceptor Count: 8
Rotatable Bond Count: 5
Exact Mass: 262.06646171 g/mol
Monoisotopic Mass: 262.06646171 g/mol
Topological Polar Surface Area: 158Ų
Heavy Atom Count: 17
Complexity: 173
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 4
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 3
Compound Is Canonicalized: Yes

Specifications of Cellulose gum:
Appearance: White to Light yellow to Light orange powder to crystal
Content(Na,Drying substance): 6.0 to 8.5 %
Etherification value( as Drying substance): 0.5 to 0.8
Drying loss: max. 10.0 %
Viscosity: 900 to 1400 mPa-s(1 %, H2O, 25 deg-C)
FooDB Name: Carboxymethyl cellulose, sodium salt

Names of Cellulose gum:

Regulatory process name:
Cellulose, carboxymethyl ether, sodium salt

IUPAC names:
2,3,4,5,6-pentahydroxyhexanal acetic acid sodium hydride
acetic acid; 2,3,4,5,6-pentahydroxyhexanal; sodium
Carboximethilcelullose
Carboxymethyl cellulose
Carboxymethyl Cellulose Sodium
Carboxymethyl cellulose sodium salt
Carboxymethyl cellulose, sodium salt
Carboxymethylcellulose
carboxymethylcellulose
Carboxymethylcellulose sodium salt
Cellulose carboxymethyl ether sodium salt
Cellulose Gum
Cellulose gum
Cellulose, carboxymethyl ether, sodium salt
Na carboxymethyl cellulose
sodium carboxy methyl cellulose
sodium carboxyl methyl cellulose
SODIUM CARBOXYMETHYL CELLULOSE
Sodium Carboxymethylcellulose
Sodium carboxymethylcellulose
sodium cellulose carboxymethyl ether

Trade name:
Carboximetilcelulosa

Other names:
Carboxy methyl cellulose sodium
Carboxymethyl cellulose
carboxymethyl cellulose sodium salt
carboxymethyl cellulose sodium salts
Carboxymethyl ether cellulose sodium salt
Carboxymethylcellulose Sodium Salt
Carboxymethylcellulose, sodium salt
cellulose carboxymethyl ether sodium salt
Cellulose, Carboxymethyl ether, Sodiu
SODIUM CARBOXYMETHYL CELLULOSE
Sodium carboxymethyl cellulose
Sodium Carboxymethylcellulose
Carboxymethylcellulose
carmellose
E466

Other identifier:
9004-32-4
CELLULOSE GUM (CARBOXYMETHYLCELLULOSE)

Carboxymethylcellulose (CMC), also known as cellulose gum, is a water-soluble polymer derived from cellulose, which is a natural polysaccharide found in the cell walls of plants.
Cellulose gum (carboxymethylcellulose) is composed of repeating glucose units linked together by β(1→4) glycosidic bonds.

CAS Number: 9004-32-4
EC Number: 618-378-6

Synonyms: Cellulose gum, Sodium CMC, Carboxymethyl cellulose, CMC, Cellulose carboxymethyl ether, Sodium cellulose glycolate, Sodium salt of carboxymethylcellulose, Cellulose carboxymethylate, Sodium carboxymethyl cellulose, Carboxymethylated cellulose, Cellulose carboxymethylether, Carboxymethyl ether of cellulose, Sodium carboxymethylcellulose ether, Carboxymethylated cellulose gum, Cellulose carboxymethylate sodium salt, Sodium salt of carboxymethyl cellulose ether, Carboxymethylcellulose sodium, Carboxymethylcellulose sodium salt, Sodium carboxymethyl cellulose gum, Sodium salt of carboxymethylcellulose gum, Carboxymethylcellulose ether sodium salt, Carboxymethyl cellulose ether sodium salt, Sodium carboxymethylcellulose gum, Carboxymethyl cellulose gum sodium salt, Carboxymethyl cellulose sodium salt, Sodium carboxymethyl cellulose ether, Sodium salt of carboxymethyl cellulose gum, Sodium salt of carboxymethylated cellulose, Sodium carboxymethylcellulose carboxymethylate, Carboxymethylated cellulose sodium salt, Sodium cellulose carboxymethylate, Carboxymethyl cellulose sodium, Sodium cellulose carboxymethylether, Sodium salt of carboxymethyl cellulose carboxymethylate, Sodium salt of carboxymethylated cellulose gum, Sodium salt of carboxymethylated cellulose ether, Sodium carboxymethylcellulose carboxymethylate, Sodium carboxymethyl cellulose sodium, Sodium carboxymethyl cellulose sodium salt, Sodium carboxymethyl cellulose carboxymethylether, Sodium cellulose carboxymethyl ether, Sodium salt of carboxymethyl cellulose sodium, Sodium salt of carboxymethyl cellulose sodium salt



APPLICATIONS


Cellulose gum (carboxymethylcellulose) is extensively used in the cosmetics industry to improve the texture and stability of lotions and creams.
Cellulose gum (carboxymethylcellulose) is a key ingredient in personal care products such as toothpaste and hair care items.
In industrial applications, CMC is utilized in papermaking as a coating additive and in textile printing pastes as a thickener.

Cellulose gum (carboxymethylcellulose)'s water-retention properties make it valuable in agricultural formulations for soil stabilization.
Cellulose gum (carboxymethylcellulose) is biodegradable and environmentally friendly, making it a preferred choice in many applications.

Cellulose gum (carboxymethylcellulose) can form gels at high concentrations or in the presence of multivalent ions.
Cellulose gum (carboxymethylcellulose) exhibits pseudoplastic behavior, meaning its viscosity decreases with increasing shear rate.

Cellulose gum (carboxymethylcellulose) is stable over a wide pH range, making it suitable for a variety of formulations.
The degree of substitution (DS) determines its solubility and rheological properties.
Cellulose gum (carboxymethylcellulose) undergoes rigorous quality control to ensure purity and consistency in manufacturing processes.

Cellulose gum (carboxymethylcellulose) is compatible with other additives and ingredients, allowing for versatile formulations.
Cellulose gum (carboxymethylcellulose) is generally recognized as safe (GRAS) for use in food and pharmaceutical products.

Its rheological properties can be adjusted to achieve desired flow characteristics in products.
Cellulose gum (carboxymethylcellulose) is soluble in cold water, facilitating its incorporation into formulations.
Cellulose gum (carboxymethylcellulose) has excellent film-forming properties, useful in coatings and packaging applications.

Cellulose gum (carboxymethylcellulose)'s versatility and stability make it a valuable additive in numerous industries.
Cellulose gum (carboxymethylcellulose) plays a crucial role in enhancing the quality, performance, and stability of various products.

Cellulose gum (carboxymethylcellulose) is widely used as a thickening agent in food products such as sauces, dressings, and soups.
Cellulose gum (carboxymethylcellulose) enhances the viscosity and texture of dairy products like ice cream and yogurt, preventing ice crystal formation and improving mouthfeel.

In baked goods, CMC helps to retain moisture and improve dough handling properties.
Cellulose gum (carboxymethylcellulose) is utilized in pharmaceutical formulations as a binder and disintegrant in tablets and capsules.
Cellulose gum (carboxymethylcellulose) controls the release of active ingredients in oral medications, ensuring proper dosage.

Cellulose gum (carboxymethylcellulose) is added to personal care products such as toothpaste and shampoo to provide viscosity and improve product performance.
In cosmetics, it acts as a thickening agent and stabilizer in creams, lotions, and gels.

Cellulose gum (carboxymethylcellulose) is employed in industrial applications such as papermaking, where it improves paper strength and printability.
Cellulose gum (carboxymethylcellulose) is used in textile printing pastes to improve color penetration and definition.

Cellulose gum (carboxymethylcellulose) serves as a suspension agent in ceramic glazes, preventing settling and ensuring uniform coverage.
Cellulose gum (carboxymethylcellulose) is added to detergents and cleaning products to enhance viscosity and stabilize formulations.

Cellulose gum (carboxymethylcellulose) is utilized in oil drilling fluids to control viscosity and fluid loss, improving drilling efficiency.
Cellulose gum (carboxymethylcellulose) acts as a binder in construction materials such as mortar and grout, improving workability and adhesion.
In the textile industry, CMC is applied as a sizing agent to increase fabric strength and reduce fiber breakage.
Cellulose gum (carboxymethylcellulose) is added to latex paints as a thickener and stabilizer, improving paint flow and leveling.

Cellulose gum (carboxymethylcellulose) is used in the production of adhesives and sealants to provide viscosity and improve bonding strength.
Cellulose gum (carboxymethylcellulose) is employed in agriculture as a suspension agent for pesticides and fertilizers, improving spray coverage.
Cellulose gum (carboxymethylcellulose) enhances the dispersion of active ingredients and prevents settling in spray solutions.
Cellulose gum (carboxymethylcellulose) is used in pet care products such as shampoos and grooming aids for its thickening and emulsifying properties.

Cellulose gum (carboxymethylcellulose) is added to ceramic membranes for water filtration applications, improving separation efficiency.
Cellulose gum (carboxymethylcellulose) is utilized in the manufacture of biodegradable films and coatings for packaging purposes.
In the oilfield industry, it is used in hydraulic fracturing fluids to improve fluid loss control.

Cellulose gum (carboxymethylcellulose) is added to artificial tears and eye drops to improve ocular surface hydration and lubrication.
Cellulose gum (carboxymethylcellulose) finds applications in the production of battery electrolytes to enhance viscosity and conductivity.
Cellulose gum (carboxymethylcellulose) is a versatile polymer with diverse applications across various industries, contributing to product performance and functionality.

Cellulose gum (carboxymethylcellulose) is used in the manufacture of ceramic tiles to improve adhesion and reduce cracking during drying.
Cellulose gum (carboxymethylcellulose) serves as a binder and thickener in pet foods, improving texture and palatability.

In battery electrolytes, CMC enhances viscosity and conductivity, contributing to battery performance.
Cellulose gum (carboxymethylcellulose) is employed in water-based paints and coatings as a rheology modifier, controlling flow and leveling.

Cellulose gum (carboxymethylcellulose) is added to petrochemical products as a thickener and suspending agent to improve stability.
Cellulose gum (carboxymethylcellulose) is used in the production of detergents and cleaning agents to provide thickening and foam stabilization.
Cellulose gum (carboxymethylcellulose) is employed in concrete mixes to improve slump retention and reduce water migration.

Cellulose gum (carboxymethylcellulose) serves as a sizing agent in textile dyeing, aiding in the even application of color.
In the construction industry, it is added to mortar and grout to improve workability and adhesion.

Cellulose gum (carboxymethylcellulose) is utilized in personal lubricants to enhance viscosity and lubricity.
Cellulose gum (carboxymethylcellulose) finds applications in the formulation of dietary supplements as a thickener and stabilizer.

Cellulose gum (carboxymethylcellulose) is added to latex paints as a thickener and stabilizer, improving paint performance.
In the textile industry, it is used in fabric finishing to reduce fiber abrasion and improve handle.
Cellulose gum (carboxymethylcellulose) serves as a suspension agent in ceramic membranes for water filtration, enhancing separation efficiency.

Cellulose gum (carboxymethylcellulose) is utilized in the production of biodegradable films and coatings for packaging applications.
Cellulose gum (carboxymethylcellulose) is added to hydraulic fracturing fluids in the oilfield industry to improve fluid loss control.
In the pharmaceutical sector, it is used in wound dressings and bandages for its absorbent properties.

Cellulose gum (carboxymethylcellulose) is employed in the manufacture of biocompatible medical implants and drug delivery systems.
Cellulose gum (carboxymethylcellulose) is added to drilling muds in oil drilling operations to control viscosity and fluid loss.

Cellulose gum (carboxymethylcellulose) is used in the production of artificial tears and eye drops to improve ocular surface hydration.
In the agricultural industry, it is utilized in crop protection products to improve spray coverage.
Cellulose gum (carboxymethylcellulose) is added to ceramic glazes to prevent settling of particles and ensure uniform coverage.

Cellulose gum (carboxymethylcellulose) finds applications in the formulation of dietary fiber supplements for gastrointestinal health.
Cellulose gum (carboxymethylcellulose) is employed in the manufacture of specialty papers such as cigarette filters and filter papers.
Cellulose gum (carboxymethylcellulose) offers a wide range of applications across industries, contributing to product quality, performance, and functionality.



DESCRIPTION


Carboxymethylcellulose (CMC), also known as cellulose gum, is a water-soluble polymer derived from cellulose, which is a natural polysaccharide found in the cell walls of plants.
Cellulose gum (carboxymethylcellulose) is composed of repeating glucose units linked together by β(1→4) glycosidic bonds.

Cellulose gum (carboxymethylcellulose) is produced through a chemical modification process known as carboxymethylation, in which hydroxyl groups (-OH) on the cellulose molecule are partially replaced by carboxymethyl groups (-CH2COONa).
This substitution reaction is typically carried out using sodium hydroxide (NaOH) and chloroacetic acid (ClCH2COOH) or its sodium salt (NaClCH2COO).

The introduction of carboxymethyl groups imparts water solubility and increased functionality to cellulose, making CMC a versatile polymer with a wide range of applications.
Cellulose gum (carboxymethylcellulose) is commonly used as a thickening agent, stabilizer, and emulsifier in various industries, including food, pharmaceuticals, cosmetics, and manufacturing.

Cellulose gum (carboxymethylcellulose) is typically supplied as a white to off-white powder or granules and is soluble in water, forming clear to slightly opaque solutions.
Cellulose gum (carboxymethylcellulose) exhibits pseudoplastic behavior, meaning its viscosity decreases with increasing shear rate.
Cellulose gum (carboxymethylcellulose) is stable over a wide pH range and has excellent film-forming properties.

Due to its biocompatibility, biodegradability, and non-toxic nature, carboxymethylcellulose is considered safe for use in food, pharmaceutical, and personal care products.
Cellulose gum (carboxymethylcellulose) undergoes rigorous quality control to ensure purity and consistency in manufacturing processes.

Carboxymethylcellulose, often referred to as CMC, is a versatile water-soluble polymer.
Derived from cellulose, Cellulose gum (carboxymethylcellulose) is a natural polysaccharide found in plant cell walls.

Cellulose gum (carboxymethylcellulose) is odorless and tasteless.
When dissolved in water, Cellulose gum (carboxymethylcellulose) forms clear to slightly opaque solutions.

Cellulose gum (carboxymethylcellulose) is known for its ability to thicken, stabilize, and emulsify a wide range of products.
Cellulose gum (carboxymethylcellulose) is commonly used in food as a thickening agent and stabilizer in products like sauces and dressings.

In pharmaceuticals, Cellulose gum (carboxymethylcellulose) serves as a binder and disintegrant in tablet formulations.
Cellulose gum (carboxymethylcellulose) is also found in ophthalmic solutions and topical creams due to its mucoadhesive properties.



PROPERTIES


Physical Properties:

Appearance: Typically a white to off-white powder or granules.
Odor: Odorless.
Taste: Tasteless.
Solubility: Soluble in water, forming clear to slightly opaque solutions.
pH: Typically ranges from 6.0 to 8.5 in a 1% aqueous solution.
Density: Varies depending on the grade and degree of substitution, typically around 0.5 to 0.7 g/cm³.
Molecular Weight: Varies depending on the degree of polymerization and substitution.
Particle Size: Varies depending on the grade and manufacturer, typically ranging from fine powder to granules.
Hygroscopicity: Absorbs moisture from the air, but does not dissolve in it.
Stability: Stable under normal storage conditions, but may degrade at high temperatures or extreme pH levels.


Chemical Properties:

Chemical Formula: (C6H10O5)n - [C6H7O2(OH)2CH2COONa]m
Molecular Structure: Linear polymer consisting of repeating glucose units with carboxymethyl groups attached.
Degree of Substitution (DS): The average number of carboxymethyl groups per glucose unit in the cellulose chain, typically ranging from 0.2 to 1.5.
Ionic Character: Anionic polymer due to the presence of carboxymethyl groups, which dissociate in water to form negatively charged carboxylate ions.
Degree of Polymerization (DP): The average number of glucose units in the cellulose chain, which can vary depending on the source and manufacturing process.
Hydrophilicity: Highly hydrophilic due to the presence of numerous hydroxyl groups, making it readily soluble in water.
Rheological Properties: Exhibits pseudoplastic behavior, meaning its viscosity decreases with increasing shear rate.
Gel Formation: Can form gels at high concentrations or in the presence of multivalent ions such as calcium.
pH Sensitivity: Stable over a wide pH range, but may undergo degradation at extreme pH values.
Thermal Properties: Decomposes at high temperatures, typically above 200°C, releasing carbon dioxide and water vapor.
Biodegradability: Biodegradable under certain conditions, with degradation rates depending on environmental factors such as temperature, moisture, and microbial activity.



FIRST AID


Inhalation:

Move the affected person to fresh air if they are experiencing respiratory discomfort.
If breathing is difficult, provide oxygen and seek medical attention immediately.
If the person is not breathing, perform artificial respiration and seek emergency medical assistance.


Skin Contact:

Remove contaminated clothing and rinse the affected area with plenty of water.
Wash skin thoroughly with soap and water.
If irritation persists or if skin becomes damaged, seek medical attention.
Contaminated clothing should be removed and washed before reuse.


Eye Contact:

Flush eyes with gently flowing water for at least 15 minutes, holding the eyelids open to ensure thorough rinsing.
Seek immediate medical attention, even if irritation or pain is mild.
Remove contact lenses if present and easy to do so, but do not delay irrigation to do this.


Ingestion:

Do not induce vomiting unless directed by medical personnel.
Rinse mouth with water and drink plenty of water to dilute the material.
Seek medical attention immediately, especially if a large amount of the substance has been ingested.


Notes to Physician:

Treat symptomatically and supportively.
In case of inhalation, administer oxygen and assist ventilation if necessary.
For eye contact, evaluate for corneal injury and treat accordingly.
If ingested, monitor for gastrointestinal symptoms and provide appropriate supportive care.


General Advice:

Ensure that affected individuals are removed from exposure and provided with appropriate medical attention.
Do not administer anything orally to an unconscious person.
In case of fire or explosion, follow appropriate firefighting procedures and evacuation protocols.


Personal Protective Equipment (PPE):

When handling CMC, wear suitable protective clothing, gloves, and eye/face protection to minimize skin and eye contact.
Use respiratory protection if ventilation is inadequate or if handling the substance in dusty conditions.


Emergency Procedures:

In case of a spill or release, contain the material and prevent further spread.
Clean up spills promptly using appropriate methods and equipment to minimize exposure.
Dispose of contaminated materials in accordance with local regulations and guidelines.



HANDLING AND STORAGE


Handling:

Personal Protective Equipment (PPE):
Wear appropriate protective clothing, including gloves, safety goggles, and a lab coat or protective clothing, to prevent skin contact and eye irritation.
Use respiratory protection if handling Cellulose gum (carboxymethylcellulose) in dusty conditions or if ventilation is inadequate.

Handling Precautions:
Avoid inhalation of dust or mist by handling Cellulose gum (carboxymethylcellulose) in well-ventilated areas.
Minimize skin contact by wearing gloves and other protective clothing.
Use dust control measures such as local exhaust ventilation or dust suppression techniques to reduce airborne dust levels.
Do not eat, drink, or smoke while handling Cellulose gum (carboxymethylcellulose).
Wash hands thoroughly with soap and water after handling Cellulose gum (carboxymethylcellulose) and before eating, drinking, or using the restroom.

Equipment Handling:
Use appropriate handling equipment such as scoops, shovels, or containers with lids to transfer Cellulose gum (carboxymethylcellulose) to prevent spills and minimize dust generation.
Ensure that handling equipment is clean and dry to prevent contamination of CMC.

Avoidance of Incompatible Materials:
Store Cellulose gum (carboxymethylcellulose) away from strong acids, bases, oxidizing agents, and incompatible materials to prevent reactions or degradation.


Storage:

Storage Conditions:
Store Cellulose gum (carboxymethylcellulose) in a cool, dry, well-ventilated area away from direct sunlight and heat sources.
Maintain storage temperatures within the recommended range specified by the manufacturer to prevent degradation.
Keep containers tightly closed when not in use to prevent contamination and moisture absorption.

Container Compatibility:
Use containers made of compatible materials such as polyethylene, polypropylene, or glass to store Cellulose gum (carboxymethylcellulose).
Ensure that containers are clean, dry, and free from any residues to prevent contamination of Cellulose gum (carboxymethylcellulose).

Separation from Incompatible Substances:
Store Cellulose gum (carboxymethylcellulose) away from incompatible materials such as strong acids, bases, oxidizing agents, and reactive chemicals to prevent reactions or contamination.

Segregation Requirements:
Segregate Cellulose gum (carboxymethylcellulose) from food, feed, and pharmaceuticals to prevent accidental contamination.

Handling of Large Quantities:
If handling large quantities of Cellulose gum (carboxymethylcellulose), use appropriate storage facilities such as warehouses or storage rooms equipped with adequate ventilation and temperature control.

Storage Duration:
Follow the manufacturer's recommendations for shelf life and storage duration of Cellulose gum (carboxymethylcellulose).
Rotate stock regularly to ensure that older material is used first and to minimize the risk of degradation or spoilage.

Security Measures:
Store Cellulose gum (carboxymethylcellulose) in a secure area to prevent unauthorized access or tampering.

Labeling:
Clearly label containers of Cellulose gum (carboxymethylcellulose) with the product name, manufacturer information, date of receipt, and any relevant hazard information.

Emergency Preparedness:
Have appropriate spill control and containment measures in place in case of accidental spills or releases.
Train personnel on proper handling and emergency response procedures for Cellulose gum (carboxymethylcellulose).
CELLULOSE GUM (E466)

Cellulose Gum (E466) is used in food under the E number E466 or E469 (when it is enzymatically hydrolyzed), as a viscosity modifier or thickener, and to stabilize emulsions in various products, including ice cream.
Cellulose Gum (E466) is also used extensively in gluten-free and reduced-fat food products.
Cellulose Gum (E466) is commonly used as a viscosity modifier or thickener, and to stabilize emulsions in various products, both food and non-food.

CAS: 9004-32-4
MF: C6H7O2(OH)2CH2COONa
MW: 0
EINECS: 618-378-6

Synonyms
9004-32-4, sodium;2,3,4,5,6-pentahydroxyhexanal;acetate, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose cellulose carboxymethyl ether, Celluvisc (TN), Carmellose sodium (JP17), CHEMBL242021, SCHEMBL25311455, C.M.C. (TN), CHEBI:31357, Sodium carboxymethyl cellulose (MW 250000), D01544, M.W. 700000(DS=0.9), 2500 - 4500mPa.s

Cellulose Gum (E466) is used primarily because it has high viscosity, is nontoxic, and is generally considered to be hypoallergenic, as the major source fiber is either softwood pulp or cotton linter.
Cellulose Gum (E466), a food additive sourced from the cellulose found in plant cell walls, is widely regarded for its solubility and viscosity.
Cellulose Gum (E466) can be used to enhance various foods (think the better texture of ice cream or stabilize salad dressings), making it essential in our lives as consumers of processed foods.
Cellulose Gum (E466)s advantages over other ingredients make CMC an invaluable asset for countless products on store shelves today.
By altering the cellulose structure through a process involving alkali and monochloroacetic acid, carboxymethyl groups are produced that give Cellulose Gum (E466) its special properties.
Originating from plant cell walls such as wood pulp and cottonseeds, this chemically modified cellulose polymer is able to act effectively as a food additive with characteristics like texture improvement, longer shelf life, and more powerful performance in general for all food additives.
This makes Cellulose Gum (E466) highly suitable for use in various kinds of foods where these unique qualities can be exploited.
Cellulose Gum (E466) is widely used in many kinds of processed foods, from ice cream and sauces to salad dressings and bakery products.

Cellulose Gum (E466) has a remarkable capacity to improve texture, enhance the appearance of food items as well as lengthen their shelf life.
That’s why Cellulose Gum (E466) becomes an ideal choice among cooks and chefs alike.
Cellulose Gum (E466) may surprise you how much CMC goes into making your favorite snacks.
Most popular dishes contain Cellulose Gum (E466).
Thanks to its versatility, Cellulose Gum (E466) can bring out the best taste while keeping food fresh for longer periods at the same time.
The various functions of Cellulose Gum (E466) have a considerable effect on processed food, particularly with respect to texture and shelf life.
In particular, Cellulose Gum (E466) serves as an important thickener, binder, and emulsifying agent for such products.
Besides influencing the feel and look of them in a positive way, Cellulose Gum (E466) also increases their shelf-life span significantly.
In order to comprehend how these effects are achieved by Cellulose Gum (E466) when used in foods, we will look at its individual roles.
Specifically regarding improving textures along with giving the overall appearance appeal plus lengthening lifespan on store shelves or similar storage areas intended for retailing purposes.
Cellulose Gum (E466) comes from the cell walls of plants, such as wood pulp and cottonseeds.
Cellulose Gum (E466) is used to make foods thick and creamy, without adding fat.
If you’re trying to reduce your fat intake or are on a low fat diet, choosing foods made with an additive like Cellulose Gum (E466) may help to make you feel less deprived.
Cellulose Gum (E466) may also help suppress (lower) your appetite.
The fiber in Cellulose Gum (E466) works as a filler in foods, giving it the potential to keep you feeling full.

This is another reason Cellulose Gum (E466) is often found in diet foods.
One drawback is that you may experience loose bowel movements if you eat too many foods high in Cellulose Gum (E466), due to its high fiber content.
Some people even use Cellulose Gum (E466) as a laxative for weight loss.
Cellulose Gum (E466) or cellulose gum is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose Gum (E466) is often used as its sodium salt, sodium carboxymethyl cellulose.
As a thickening stabilizer, Cellulose Gum (E466) food grade is also be used in the production of various kinds of compound emulsion stabilizer.
For example, the compound of Cellulose Gum (E466), guar gum and carrageenan enables ice cream materials to have relatively high viscosity and to improve the emulsifying capacity of protein.
Cellulose Gum (E466) also makes the tissue structure of ice cream soft, fine and smooth, the taste lubricant, and the texture thick and dente, with relatively good melting resistance.
Cellulose Gum (E466) can control the size of crystals in frozen food, and prevent stratification between oil and water.
In an acid system, Cellulose Gum (E466) have good suspension stability in acid-resistant food, can effectively improve solution stability and impedance capability of protein.
Cellulose Gum (E466) can improve taste and mouthfeel, reduce the syneresis of food, raise quality and prolong shelf life.
Compared with other similar hydrocolloids, Cellulose Gum (E466) is featured by strong acid resistance, high salt-resistance and good transparency, with very few free fibers, fast dissolving and good fluidity after dissolving.
A semisynthetic, water-soluble polymer in which CH2COOH groups are substituted on the glucose units of the cellulose chain through an ether link- age.
Mw ranges from 21,000 to 500,000.
Since the reaction occurs in an alkaline medium, the prod- uct is the sodium salt of the carboxylic acid R-O-CH2COONa.

Cellulose Gum (E466) Chemical Properties
Melting point: 274 °C (dec.)
Density: 1,6 g/cm3
FEMA: 2239 | CARBOXYMETHYLCELLULOSE
Storage temp.: room temp
Solubility: H2O: 20 mg/mL, soluble
Form: low viscosity
Pka: 4.30(at 25℃)
Color: White to light yellow
Odor: Odorless
PH Range: 6.5 - 8.5
PH: pH (10g/l, 25℃) 6.0~8.0
Water Solubility: soluble
Merck: 14,1829
Stability: Stable. Incompatible with strong oxidizing agents.
EPA Substance Registry System: Cellulose Gum (E466) (9004-32-4)

Uses
Cellulose Gum (E466) powder is widely used in the ice cream industry, to make ice creams without churning or extremely low temperatures, thereby eliminating the need for conventional churners or salt ice mixes.
Cellulose Gum (E466) is used in baking breads and cakes.
The use of Cellulose Gum (E466) gives the loaf an improved quality at a reduced cost, by reducing the need of fat.
Cellulose Gum (E466) is also used as an emulsifier in biscuits.
By dispersing fat uniformly in the dough, Cellulose Gum (E466) improves the release of the dough from the moulds and cutters, achieving well-shaped biscuits without any distorted edges.
Cellulose Gum (E466) can also help to reduce the amount of egg yolk or fat used in making the biscuits.
Use of Cellulose Gum (E466) in candy preparation ensures smooth dispersion in flavor oils, and improves texture and quality.
Cellulose Gum (E466) is used in chewing gums, margarines and peanut butter as an emulsifier.

Cellulose Gum (E466) plays a crucial role in enhancing the shelf life of processed foods.
Cellulose Gum (E466) prevents spoilage, thus allowing manufacturers to offer products that have an extended lifespan before needing to be used.
Not only does this benefit customers by having their food remain fresh for longer periods, but also contributes towards improving sustainability within the industry as it reduces instances of food waste.
Cellulose Gum (E466) plays a role in the appearance of processed foods, giving them an appealing look and texture.
By ensuring uniform consistency, Cellulose Gum (E466) prevents ingredients from separating out, which is essential for products such as salad dressings or sauces to be desirable.
To Cellulose Gum (E466)'s influence on taste perception by enhancing textures, CMC guarantees that food manufacturers produce appetizing-looking dishes too.
Cellulose Gum (E466) is well-known for being a thickener, stabilizer and emulsifier that greatly enhances the texture of processed foods.
Cellulose Gum (E466) contributes to increased viscosity in food products as well as improving their rheological properties, creating a smoother consistency desired by consumers.
This makes it an essential ingredient in many different kinds of dishes from ice cream to sauces enjoyed around the world.

Marshmallows: Cellulose Gum (E466) not only prevents dehydration and shrinkage of the product but also contributes to a more airy structure.
When combined with gelatin, Cellulose Gum (E466) can significantly increase the viscosity of the gelatin.
A high molecular weight Cellulose Gum (E466) (DS around 1.0) should be selected.
Ice cream: Cellulose Gum (E466) has a lower viscosity at higher temperatures, and the viscosity increases upon cooling, which is conducive to the improvement of the expansion rate of the product and facilitates operation.
It is advisable to use Cellulose Gum (E466) with a viscosity of 250~260 mPa·s (DS around 0.6), and the reference dosage should be less than 0.4%.
Fruit juice beverages, soups, sauces, and instant soluble drinks: Due to Cellulose Gum (E466)'s good rheological properties (pseudoplasticity), it delivers a refreshing taste, and its excellent suspension stability ensures uniform flavor and texture throughout the product.
For acidic fruit juices, a Cellulose Gum (E466) with good uniformity in degree of substitution is required.
If Cellulose Gum (E466) is further blended with a certain proportion of other water-soluble gums (such as xanthan gum), the effect can be even better.
A high viscosity CMC (DS0.6~0.8) should be selected.
Instant noodles: The addition of 0.1% Cellulose Gum (E466) helps to control moisture content, reduce oil absorption, and can also enhance the glossiness of the noodles.
Dehydrated vegetables, tofu skin, and dried tofu sticks, and other dehydrated foods: They rehydrate well and easily, and have a good appearance.

It is advisable to use high viscosity Cellulose Gum (E466) (with a degree of substitution around 0.6).
Noodles, bread, and frozen foods: Cellulose Gum (E466) can prevent starch retrogradation and dehydration, and control the viscosity of pastes.
The effect is further improved when used in combination with konjac flour, xanthan gum, certain emulsifiers, and phosphates.
A medium viscosity Cellulose Gum (E466) (DS0.5 to 0.8) should be selected.
Orange juice, pulpy orange, coconut juice, and fruit tea: Because Cellulose Gum (E466) provides excellent suspension and support, it is even better when combined with xanthan gum or agar.
A medium viscosity Cellulose Gum (E466) (DS around 0.6) should be selected.
Soy sauce: The addition of salt-tolerant Cellulose Gum (E466) to adjust its viscosity can make the soy sauce have a delicate and smooth taste.
Vegetarian Burgers: Cellulose Gum (E466) is used to enhance the texture, stability, and shelf life of vegetarian burgers, making them more palatable and easier to handle during cooking and consumption.

Synthesis
Cellulose Gum (E466) is formed when cellulose reacts with mono chloroacetic acid or its sodium salt under alkaline condition with presence of organic solvent, hydroxyl groups substituted by Sodium carboxymethyl groups in C2, C3 and C6 of glucose, which substitution slightly prevails at C2 position.
Generally, there are two steps in manufacturing process of sodium carboxymethyl cellulose, alkalinization and etherification.
Step 1: Alkalinization
Disperse the raw material cellulose pulp in alkali solution (generally sodium hydroxide, 5–50%) to obtain alkali cellulose.
Cell-OH+NaOH →Cell·O-Na+ +H2O
Step 2: Etherification
Etherification of alkali cellulose with sodium monochloroacetate (up to 30%) in an alcohol-water medium.
The mixture of alkali cellulose and reagent is heated (50–75°C) and stirred during the process.
ClCH2COOH+NaOH→ClCH2COONa+H2O
Cell·O-Na+ +ClCH2COO- →Cell-OCH2COO-Na
The DS of the sodium CMC can be controlled by the reaction conditions and use of organic solvents (such as isopropanol).

Preparation
Cellulose Gum (E466) is synthesized by the alkali-catalyzed reaction of cellulose with chloroacetic acid.
The polar (organic acid) carboxyl groups render the cellulose soluble and chemically reactive.
Fabrics made of cellulose—e.g. cotton or viscose rayon—may also be converted into CMC.
Following the initial reaction, the resultant mixture produces approximately 60% CMC and 40% salts (sodium chloride and sodium glycolate).
This product, called technical CMC, is used in detergents.
An additional purification process is used to remove salts to produce pure CMC, which is used for food and pharmaceutical applications.
An intermediate "semi-purified" grade is also produced, typically used in paper applications such as the restoration of archival documents.

Production Methods
Alkali cellulose is prepared by steeping cellulose obtained from wood pulp or cotton fibers in sodium hydroxide solution.
The alkaline cellulose is then reacted with sodium monochloroacetate to produce carboxymethylcellulose sodium. Sodium chloride and sodium glycolate are obtained as by-products of this etherification.
CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC)
Cellulose gum (Sodium carboxymethyl cellulose or CMC) usually is packaged as a white powder.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as Thickener in Tooth paste.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) prevents separation of ingredients & keeps the paste stable with proper shape.


CAS Number: 9004-32-4
EC Number: 618-378-6
MDL number: MFCD00081472
E number: E466 (thickeners, ...)
Molecular Formula: C8H15NaO8



SYNONYMS:
Carboxymethylcellulosesodium salt, 9004-32-4, SODIUM CARBOXYMETHYL CELLULOSE, sodium, 2,3,4,5,6-pentahydroxyhexanal, acetate, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose cellulose carboxymethyl ether, Celluvisc (TN), Carmellose sodium (JP17), CHEMBL242021, C.M.C. (TN), CHEBI:31357, Sodium carboxymethyl cellulose (MW 250000), D01544, Sodium cellulose glycolate, Na CMC, CMC, cellulose gum, sodium CMC, carboxymethyl cellulose, Carboxymethyl cellulose, CMC-Na, cellulose gum, carmellose sodium, b10, carbo, Carboxyl Methyl Cellulose sodium, cmc2, Color Speckles, Cellex, Carboxymethylcellulose sodium, unspecified form, Carmellose sodium, Cellulose gum, CMC, Sodium carboxymethyl cellulose, Sodium carboxymethylcellulose, Sodium cellulose glycolate, Sodium CMC, Carboxymethyl Cellulose Sodium Salt, 9004-32-4, SODIUM CARBOXYMETHYL CELLULOSE, sodium;2,3,4,5,6-pentahydroxyhexanal;acetate, Carboxymethylcellulose sodium (USP), Carboxymethylcellulose cellulose carboxymethyl ether, Celluvisc (TN), Carmellose sodium (JP17), CHEMBL242021, SCHEMBL25311455, C.M.C. (TN), CHEBI:31357, Sodium carboxymethyl cellulose (MW 250000), D01544, M.W. 700000(DS=0.9), 2500 - 4500mPa.s, Sodium Cellulose Glycolate, Carboxymethyl Cellulose Sodium, CMC-Na, Na–CMC, Sodium CMC, Modified Cellulose, Cellulose Derivatives, Anionic Carboxy Methyl Cellulose, Anionic Modified Cellulose, Anionic Cellulose Derivatives, Cellulose Gum, CMC, Carboxymethyl Ethers of Cellulose, Sodium Salt of Carboxymethyl Ether of Cellulose, Carboxymethyl cellulose, sodium salt , Cellulose, carboxymethyl ether, sodium salt , CMC , Cellulose gum , Sodium carboxymethyl cellulose, (C30-H43-O26-Na3)n, carboxymethyl cellulose, carboxymethyl cellulose, sodium salt, cellulose, carboxymethyl ether, sodium salt, cellulose gum, sodium cellulose glycolate, cellulose glycolic acid, sodium salt, Cellogen, Cellpro, Cellufix FF 100, Cellugel, Collowel, Copagel, CMC, Courlose, C.N Cellulose, Daicel, sodium CMC, Polycell, Cellolax, Aquaplast, Tylose, Blanose, Unisol, Carbose 1M, Cehol, Carmethose, Vegetable gum, 466, Cellofas, Finnfix, CCRIS 3653, Cellofas B, Cellofas B5, Cellofas B50, Cellofas B6, Cellofas C, Cellogel C, Cellogen 3H, Cellogen PR, Cellogen WS-C, Cellufresh, Cellulose carboxymethyl ether sodium salt, Cellulose sodium glycolate, Cellulose, carboxymethyl ether, sodium salt, low-substituted, Celluvisc, CM-Cellulose sodium salt, CMC 2, CMC 3M5T, CMC 41A, CMC 4H1, GPR, Finnfix Purified Range, Cellogen BSH-5, 6A, 7A,WS-A,HP-4H, HSSH, Carboxymethyl cellulose, sodium salt , Cellulose, carboxymethyl ether, sodium salt , CMC , Cellulose gum , Sodium carboxymethyl cellulose, Carboxymethyl Cellulose Sodium Salt, Sodium Cellulose Glycolate, Carboxymethyl Cellulose Sodium, CMC-Na, Na–CMC, Sodium CMC, Modified Cellulose, Cellulose Derivatives, Anionic Carboxy Methyl Cellulose, Anionic Modified Cellulose, Anionic Cellulose Derivatives, Cellulose Gum, CMC, Carboxymethyl Ethers of Cellulose, Sodium Salt of Carboxymethyl Ether of Cellulose, Carboxymethyl cellulose, sodium salt , Cellulose, carboxymethyl ether, sodium salt , CMC , Cellulose gum , Sodium carboxymethyl cellulose



Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose gum used in some bubble solutions.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is often called CMC.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) usually is packaged as a white powder.


It has been reported that Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an ingredient in some commercial bubble solutions.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is related to HEC and HPMC (also cellulose gums), but the characteristics that it brings to bubble juice are distinct from what HEC and HPMC, which are distinct from each other, bring.


This synthetically made polymer, Cellulose gum (Sodium carboxymethyl cellulose or CMC), is derived from cellulose, which is made water-soluble by undergoing a chemical reaction.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is of astronomical value in the pharmaceutical and cosmetic industry due to the multifarious benefits it provides when added to various preparations.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an additive used in different industries as a thickener, stabilizer or filler among other applications.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a water-soluble, anionic cellulose derivative.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is light tan to white, odorless, tasteless, free-flowing powder that is fairly hygroscopic.
As the material is derived from natural cellulose, Cellulose gum (Sodium carboxymethyl cellulose or CMC) exhibits gradual biodegradability and can be incinerated after use, making it a very environmentally friendly material.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the sodium salt of CMC or cellulose gum, an anionic derivative with properties like, odorless, tasteless, and non-toxic.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) appears as white or slightly yellow powder.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as Thickener in Tooth paste.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) prevents separation of ingredients & keeps the paste stable with proper shape.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is produced by reacting Cellulose (found in plant cell walls) with a derivative of acetic acid in an alkaline solution.
Chemically, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is composed of repeating units of glucose molecules with carboxymethyl groups attached to some of the hydroxyl groups on the glucose units.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is known as a popular & fairly safe food additive.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an anionic water soluble polymer; it is derived from cellulose, which is made water soluble by a chemical reaction.


The water solubility of Cellulose gum (Sodium carboxymethyl cellulose or CMC) is achieved by introducing carboxymethyl groups (-CH2-COOH) along the cellulose chain, which makes hydration of the molecule possible.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the sodium salt of Carboxymethyl Cellulose, available as white to cream colored powder.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is most common used form of Carboxymethyl Cellulose which is also know as cellulose gum.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely accepted as safe food additive in many countries with E number E466.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also best known as cellulose gum or sodium CMC.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is prepared from cellulose and is obtained by the chemical modification from natural materials such as wood pulp and all plant structures.
Adding Cellulose gum (Sodium carboxymethyl cellulose or CMC) can improve the shelf life and increase the fiber content in food.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose derivative with carboxymethyl groups bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a modified cellulose gum (Thickener is E461).


Cellulose gum (Sodium carboxymethyl cellulose or CMC) tends to give clear, slightly gummy, solutions.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is generally soluble in cold water and insoluble in hot.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) gives moisture retention to cake mixes and water binding and thickening to icings.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose derivative with carboxymethyl groups bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) improves the quality and texture of your cakes, cupcakes, and cookies.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) also improves the strength and reduces dry time when used in gum paste.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) also makes product pure white.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an anionic water soluble polymer; it is derived from cellulose, which is made water soluble by a chemical reaction.


The water solubility is achieved by introducing carboxymethyl groups (-CH2-COOH) along the cellulose chain, which makes hydration of the molecule possible.
The chemical name of SCMC is Cellulose gum (Sodium carboxymethyl cellulose or CMC).
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a high viscosity carboxymethylcellulose (CMC); the viscosity of a 1% solution in water at 25 °C is 1300-2200 centipoise (cps).


The viscosity of Cellulose gum (Sodium carboxymethyl cellulose or CMC) is both concentration and temperature dependent.
As the temperaure increases, the viscosity decreases.
As the concentration increases, the viscosity increases.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is soluble in aqueous solution.
High viscosity Cellulose gum (Sodium carboxymethyl cellulose or CMC) is soluble at up to 50 mg/ml concentration but heat may be required.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) dissolves in hot water as well as in cold water Organic solvent pre-dispersing .


Pre-mix of Cellulose gum (Sodium carboxymethyl cellulose or CMC) with other powder materials can increase dissolving speed Dispersing and dissolving in emulsifying mixer.
Add other salt or acid solution after Cellulose gum (Sodium carboxymethyl cellulose or CMC) dissolves.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a non-toxic, odorless white flocculent powder with stable performance and is easily soluble in water.
Cellulose gum (Sodium carboxymethyl cellulose or CMC)'s aqueous solution is a neutral or alkaline transparent viscous liquid, soluble in other water-soluble glues and resins, and insoluble in organic solvents such as ethanol.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a thickening agent that is made by reacting CELLULOSE (wood pulp, cotton lint) with a derivative of acetic acid (the acid in vinegar).
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is not absorbed or digested, so the FDA allows it to be included with “dietary fiber” on food labels.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) isn’t as healthful as fiber that comes from natural foods.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is actually the sodium salt of carboxymethyl cellulose.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is derived from cellulose, which is made water-soluble by a chemical reaction.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is known for its excellent water retaining capacity.
The water-solubility is achieved by introducing carboxymethyl groups along the cellulose chain, which makes hydration of the molecule possible.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) functions as a thickener, binder, stabiliser, protective colloid, suspending agent, gelling agent, and flow control agent.


This makes Cellulose gum (Sodium carboxymethyl cellulose or CMC) suitable for use in a variety of industries.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an anionic water-soluble polymer available in number of grades and viscosity types with wide application.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is odourless, tasteless, non-toxic powder.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is highly soluble in both hot & cold water but dissolves faster in hot water than cold water.
The solution of Cellulose gum (Sodium carboxymethyl cellulose or CMC) has better resistant for microbiological attack than many natural products.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a versatile, cost-effective and easy-to-use thickener.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) has wide applications, including food, daily chemicals, papermaking, printing and dyeing, oil drilling, etc.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) has stable performance.


Especially in beverages, Cellulose gum (Sodium carboxymethyl cellulose or CMC) has such characteristics as preventing precipitation and layering of beverages, improving the taste, and enhancing resistance to high temperatures.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a high viscosity carboxymethylcellulose (CMC); the viscosity of a 1% solution in water at 25 °C is 1300-2200 centipoise (cps).


The viscosity of Cellulose gum (Sodium carboxymethyl cellulose or CMC) is both concentration and temperature dependent.
As the temperaure increases, the viscosity decreases.
As the concentration increases, the viscosity increases.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is soluble in aqueous solution at 25 °C.
High viscosity Cellulose gum (Sodium carboxymethyl cellulose or CMC) is soluble at up to 50 mg/ml concentration but heat may be required.
The solid of Cellulose gum (Sodium carboxymethyl cellulose or CMC) should be added to the water.


Stir Cellulose gum (Sodium carboxymethyl cellulose or CMC) gently or shake intermittently; do not stir constantly with a magnetic stirring bar.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the most widely used and largest amount of cellulose in the world.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the water-dispersible sodium salt of the carboxymethyl ether of cellulose, which forms a transparent colloidal solution.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a hygroscopic material, capable of absorbing more than 50 per cent of water at high humidity.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also a natural polymer derivative used in detergents, pharmaceuticals, food, cosmetics and the textile industry.



USES and APPLICATIONS of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also a constituent of many non-food products, such as personal lubricants, toothpaste, laxatives, diet pills, water-based paints, detergents, textile sizing, and various paper products.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used primarily because it has high viscosity, is nontoxic, and is generally considered to be hypoallergenic as the major source fiber is either softwood pulp or cotton linter.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used extensively in gluten free and reduced fat food products.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in Pharma for Suspension, Thickening and Stabilizing.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used in Drilling, Paper, Detergents, Food, and Textile Dyeing Printing.


In Pharmaceutical Industry, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used for Suspension, Thickening and Stabilizing.
In Toothpaste manufacturing, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used for Thickening and viscosity Stabilizing agent.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used in various kinds of Dairy products and condiments and plays a role of stabilization, taste improvement and thickening.


In addition, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used in ice cream, bread, cake, biscuit, instant noodle and fast paste foodstuff for product moulding, taste improvement, anti – fragmentation, water retaining and tenacity strengthening.
In Cosmetics, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in Hair Colour, Henna, Instant tattoo etc.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used in Oil Well Drilling, Paper, Detergents, Paints, and Textile Dyeing & Printing, Ceramics, Mining etc.
In laundry detergents, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a soil suspension polymer designed to deposit onto cotton and other cellulosic fabrics, creating a negatively charged barrier to soils in the wash solution.


In Pharmaceuticals, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used in pharmaceuticals as a thickening agent.
In the oil-drilling industry as an ingredient of drilling mud, where itCellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a viscosity modifier and water retention agent.


In some countries, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the primary or sole ingredient of wallpaper paste.
So, recipes that call for wallpaper paste are usually making use of Cellulose gum (Sodium carboxymethyl cellulose or CMC).
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is mainly used as a stabilizer and thickener, and widely used in milk drinks, yogurt, ice cream, baked goods, syrups.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in ice cream, in order to make water, fat and protein to form a uniform, dispersed and stable mixture, to avoid the appearance of ice crystals, and to have fine and smooth taste, and good formability.
The addition of Cellulose gum (Sodium carboxymethyl cellulose or CMC) in ice cream can greatly reduce the production cost.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) can also be used in oil drilling and personal care products (toothpaste, hair gel, shampoo, lotion and ointment).
Cellulose gum (Sodium carboxymethyl cellulose or CMC) used in the textile industry can produce paper.


The crude Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in small-scale laundry detergents.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is often used as its sodium salt, sodium carboxymethyl
cellulose.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in food under the E number E466 or E469 (when it is enzymatically hydrolyzed) as a viscosity modifier or thickener, and to stabilize emulsions in various products including ice cream.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also a constituent of many non-food products, such as toothpaste, laxatives, diet pills, water-based paints, detergents, textile sizing, reusable heat packs, and various paper products.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used primarily because it has high viscosity, is nontoxic, and is generally considered to be hypoallergenic as the major source fiber is either softwood pulp or cotton linter.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used extensively in gluten free and reduced fat food products .


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used in the ice cream industry, to make ice creams without churning or extreme low temperatures, thereby eliminating the need for the conventional churners or salt ice mixes.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in preparing bakery products such as bread and cake aa an emulsifier in high quality biscuits.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as its sodium salt, sodium carboxymethyl cellulose.
As one common food ingredients, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used into bakeries, including cakes, muffins and tortillas to improve the texture of the product by increasing moisture retention.


In ice-creams, Cellulose gum (Sodium carboxymethyl cellulose or CMC) plays an important role as one stabilizer as well as in fruit drinks and concentrate drinks.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a thickening agent in almost all food products.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an efficient food additive and thickener for numerous applications in the food industry.
Moreover, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used to stabilize emulsions in products such as salad dressing to prevent separation.


In addition, Cellulose gum (Sodium carboxymethyl cellulose or CMC) helps the quality of ice cream and frozen desserts.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used as a binder in meat and seafood products, texture enhancer for bakery products, gluten and fat replacement, and as a weight control ingredient and dietary fiber source.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is usually found as a fine, white to cream-colored powder.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used in Foods, Pharmaceuticals, Cosmetics, Textiles, Papers & Corrugated Boards, Detergents, Paints, Oil Well Drillings, Welding Electrodes, Pesticides, Ceramics, Tobacco, Mosquito Repellent Incense, Explosives, Batteries, Pencils, Leathers & other industries.


Common industrial uses of Cellulose gum (Sodium carboxymethyl cellulose or CMC) include: Bakery, Canned Foods, Salad Dressings, Sauces , Desserts, and Dairy Products.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is commercially prepared from wood and is used as a thickener, stabilizer, anti-clumping agent, dietary fiber and emulsifier in food products.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used as thickener in food production, especially in gluten free product.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a viscosity modifier and thickener to stabilize emulsions in products like ice cream and dairy products.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is also used to achieve tartrate or cold stability in wine.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is often used as its sodium salt, sodium carboxymethyl cellulose.
Lubricant: Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a variable viscosity personal lubricant; it is the main ingredient in K-Y Jelly.


Artificial tears and saliva: Solutions containing Cellulose gum (Sodium carboxymethyl cellulose or CMC) or similar cellulose derivatives are used as substitute for tears or saliva if the natural production of these fluids is disturbed.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used to thicken dry mix beverage, syrups, ripples and ice cream, and also to stabilise ice cream, batters and sour milk.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in drilling muds, in detergents as a soil-suspending agent, in resin emulsion paints, adhesives, printing inks, textile sizes, as protective colloid in general.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as stabilizer in foods.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in pharmaceuticals as a suspending agent, tablet excipient, viscosity-increasing agent and in the development of biostructures such as biofilms, emulsions and nanoparticles for drug delivery.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a suspending agent, viscosity modifiers (thickeners) to stabilize emulsions and as a chemical dispersants of oils and other carbon structures such as nanotubes.


High viscosity is used to make a mixture which resembles a cream or lotion.
Food Grade: Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely used as thickener and texture stabilizer in food and beverage industries.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the product with the largest output, the widest range of uses, and the most convenient use among cellulose ethers, commonly known as "industrial monosodium glutamate".


Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as a binder, thickener, suspending agent, emulsifier, dispersant, stabilizer, sizing agent, etc.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in oil and natural gas drilling, well digging and other projects.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in textile, printing and dyeing industry.
The textile industry uses Cellulose gum (Sodium carboxymethyl cellulose or CMC) as a sizing agent for light yarn sizing of cotton, silk wool, chemical fiber, blended and other strong materials.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as a dirt adsorbent when added to synthetic detergents
Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as adhesive, plasticizer, suspending agent of glaze, color fixing agent, etc. in the ceramic industry.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in construction to improve water retention and strength.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used improve texture, stabilize foam (beer), prevent fruit from settling, prevent sugar from crystallizing (cake icings), bind water: Ice cream, beer, pie fillings and jellies, cake icings, diet foods.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used automobile, Construction, Woodworking, Fiber & Garment, Industry Thickener.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in drilling muds, in detergents as a soil-suspending agent, in resin emulsion paints, adhesives, printing inks, textile sizes, as protective colloid in general.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as stabilizer in foods.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in pharmaceuticals as a suspending agent, tablet excipient, viscosity-increasing agent and in the development of biostructures such as biofilms, emulsions and nanoparticles for drug delivery.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a suspending agent, viscosity modifiers (thickeners) to stabilize emulsions and as a chemical dispersants of oils and other carbon structures such as nanotubes.
High viscosity is used to make a mixture which resembles a cream or lotion.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is widely use in Foods, Pharmaceuticals, Cosmetics, Textiles, Papers & Corrugated Boards, Detergents, Paints, Oil Well Drillings, Welding Electrodes, Pesticides, Ceramics, Tobacco, Mosquito Repellent Incense, Explosives, Batteries, Pencils, Leathers & other industries.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a good candidate for nanosystems for drug delivery due to its biocompatibility, biodegradability, non-toxicity and gelling properties.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as a technical additive (functional classes: emulsifier, stabiliser, thickener, gelling agent and binder) in premixes and feeds for all animal species without minimum and maximum content limits.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as a binder in the preparation of graphene nano-platelet based inks for the fabrication of dye sensitized solar cells (DSSCs).
Cellulose gum (Sodium carboxymethyl cellulose or CMC) can also be used as a viscosity enhancer in the development of tyrosinase based inks for the formation of electrodes for biosensor applications.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a support material for a variety of cathodes and anodes for microbial fuel cells.
In textile industry, Cellulose gum (Sodium carboxymethyl cellulose or CMC) can work sizing agent for the warp sizing of fabrics.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) can improve the best product & increase strength in the process of spinning.


In print paste of rayon fiber, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is the thickening agent as well as the emulsifying agent, so it helps to uniformly mix the dye with high boiling point cleaning solvent with as well as to stabilize the dye suspension and thus to prevent the occurrence of sedimentation and the formation of foam in storage.


Cellulose gum (Sodium carboxymethyl cellulose or CMC) has good viscosity stability, Good distribution uniformity of DS (degree of substitution), Good fluidity of solution in the color paste system, Higher washable performance in the washing process after printing and dyeing, significantly improved the printing paste type, used for reactive dye printing for cotton fabrics as textile printing thickener, with a good color yield, handle, penetration.


It is often used as its sodium salt, Cellulose gum (Sodium carboxymethyl cellulose or CMC).
As suspending agent of printing paste, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is mainly used in printing and dyeing.


-Cellulose gum (Sodium carboxymethyl cellulose or CMC) Food Grade Application:
In foods,Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used in food science as a viscosity modifier or thickener, and to stabilize emulsions in various products including ice cream.
As a food additive, Cellulose gum (Sodium carboxymethyl cellulose or CMC) has E number E466.


-Used in paper industry Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be used as paper smoothing agent and sizing agent in paper industry.
Adding 0.1%~0.3% CMC to the pulp can increase the tensile strength of the paper by 40%~50%, increase the crack resistance by 50%, and increase the kneadability by 4~5 times.


-Relevant identified uses
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used synthetic polymer.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used modified cellulose polymers are used in a wide variety of cosmetics as thickeners, suspending agents, film formers, stabilisers, emulsifiers, emollients, binders, or water-retention agents

Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a cellulose derivative with carboxymethyl groups (-CH2-COOH) bound to some of the hydroxyl groups of the glucopyranose monomers that make up the cellulose backbone.


-In food applications:
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as a stabiliser, thickener, film former, suspending agent and extender.
Applications of Cellulose gum (Sodium carboxymethyl cellulose or CMC) include ice cream, dressings, pies, sauces, and puddings.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is available in various viscosities depending on the function it is to serve.


-In non food applications:
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is sold under a variety of trade names and is used as a thickener and emulsifier in various cosmetic products, and also as a treatment of constipation.
Like cellulose, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is not digestible, not toxic, and not allergenic.
Some practitioners are using this for weight loss.


-Treatment of constipation
When eaten, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is not absorbed by the intestines but passes through the digestive tract undisturbed.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) attracts large amounts of water into the colon, producing a softer and bulkier stool.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used to treat constipation, diverticulosis, hemorrhoids and irritable bowel syndrome.

Cellulose gum (Sodium carboxymethyl cellulose or CMC) should be taken with sufficient amounts of fluid to prevent dehydration.
Because Cellulose gum (Sodium carboxymethyl cellulose or CMC) absorbs water and potentially toxic materials and increases viscosity, it can also be used to treat diarrhea.


-Paper and textile sizing:
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is used as sizing in the production of papers and textiles.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) protects the fibers from absorbing water or oil.



FUNCTIONS & PROPERTIES OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Cellulose gum (Sodium carboxymethyl cellulose or CMC) has the following functions and properties:
1) Cellulose gum (Sodium carboxymethyl cellulose or CMC)acts as a thickener, binder, stabilizer, suspending agent and flow controlling agent.
2) Cellulose gum (Sodium carboxymethyl cellulose or CMC) forms fine films that are resistant to oils, greases, and organic solvents.
3) Cellulose gum (Sodium carboxymethyl cellulose or CMC) dissolves rapidly in cold water.
4) Cellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a protective colloid reducing water losses.
5) Cellulose gum (Sodium carboxymethyl cellulose or CMC) is suitable for use in food systems.
6) Cellulose gum (Sodium carboxymethyl cellulose or CMC) is physiologically inert.
7) Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an anionic polyelectrolyte.

These properties and functions make Cellulose gum (Sodium carboxymethyl cellulose or CMC) suitable for use in a broad range of applications in the food, pharmaceutical, cosmetic, paper, and other industries.

To serve these diverse industries, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is available in three grades: HIGHLY PURIFIED, PURIFIED & TECHNICAL and in many types based on carboxymethyl substitution, viscosity, purity, particle size, and other parameters.



BENEFITS AND USES OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is utilised for treating dry and red eyes and is used in making artificial teardrops and lens solutions.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) stops your lotions, creams from separating, and controls the thickness and texture of liquids, creams, and gels.

Cellulose gum (Sodium carboxymethyl cellulose or CMC) helps to stabilize your formulations and increase their shelf life.
You can find it in eye drops, personal care items, and cosmeceuticals for the numerous benefits it provides.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) increases the thickness of your shampoos, conditioners, and hair masks and gives them a creamy texture.

You can add Cellulose gum (Sodium carboxymethyl cellulose or CMC) to your serums to make their consistency less runny and impart more humectant properties to them.



HOW CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC) WORKS:
Cellulose gum (Sodium carboxymethyl cellulose or CMC) works by enhancing the viscosity of the formulations to which it is added.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a humectant and prevents dryness and irritation when added to pharmaceutical preparations.



CONCENTRATION AND SOLUBILITY OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
The maximum recommended concentration of use of Cellulose gum (Sodium carboxymethyl cellulose or CMC) is 2% of the formulation.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is soluble in water but is insoluble in oil and ethanol.



HOW TO USE CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Heat the water phase to 60o
Add our pure Cellulose gum (Sodium carboxymethyl cellulose or CMC) to it while stirring continuously with a mixer
Add Cellulose gum (Sodium carboxymethyl cellulose or CMC) the mixture to the heated oil phase.
Adjust the pH to complete the formulation.



FUNCTIONS & PROPERTIES OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Cellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a thickener, binder, stabilizer, suspending agent and flow controlling agent;
Cellulose gum (Sodium carboxymethyl cellulose or CMC) forms fine films that are resistant to oils, greases, and organic solvents;
Cellulose gum (Sodium carboxymethyl cellulose or CMC) dissolves rapidly in cold water.

Cellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a protective colloid reducing water losses;
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is suitable for use in food systems;
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is physiologically inert;
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is an anionic polyelectrolyte.



CHEMICAL FORMULA OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
[C6H7O2 (OH) x (OCH2COONa) y] n Where n = degree of polymerization, x = 1.50 to 2.80, y = 0.2 to 1.50, x + y = 3.0 y = degree of substitution.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a white to creamish coloured powder consisting of very fine particles, fine granules.

Cellulose gum (Sodium carboxymethyl cellulose or CMC) is odor less and tasteless.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a hygroscopic powder readily dissolves in water to form colloidal solution.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is insoluble in many organic solvents such as methanol, ethanol, propanol and acetone and so on.



MANUFACTURE AND TYPES OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is extracted from wood pulp and pure cotton cellulose.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be divided into industrial grade and food grade.
The industrial-grade Cellulose gum (Sodium carboxymethyl cellulose or CMC) can be further divided into technical-grade and semi-purified cellulose gum.
And the technical-grade Cellulose gum (Sodium carboxymethyl cellulose or CMC) generally has purity less than 80%; the semi-purified cellulose gum has purity ranging from 80% to 95%; the purified cellulose gum has purity more than 99.5%.



WHAT ARE THE OTHER NAMES CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC) IS ALSO KNOWN AS?
Carboxymethyl Cellulose (E466), Carboxymethylcellulose, Emulsifier (E466), Emulsifying & Stabilizing Agent(E-466), Emulsifier (INS 466), Stabilizer 466, Thickener (Cellulose Gum), Vegetable Gum 466, INS 466, E466, Thickener CMC E466.



WHAT PRODUCTS IS CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC) USED IN?
Cellulose gum (Sodium carboxymethyl cellulose or CMC) functions as a food thickener in beverages, baked goods, dairy products and can also be used to replace other thickeners like guar gum, gelatin or pectin.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is mainly used in ice creams.

But otherwise found in soy milk, dairy products, sauces, toothpastes and is also used in cosmetics and personal care products as a binding and viscosity controlling agent.
Many ‘low fat’ products may contain this in order to give the food a creamier and thick consistency and make Cellulose gum (Sodium carboxymethyl cellulose or CMC) more appealing.



WHAT IS THE SOURCE OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC)?
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is a modified cellulose, and it is considered a semi-synthetic or modified natural polymer.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is derived from cellulose, a natural component found in the cell walls of plants.

The modification involves chemical processes to introduce carboxymethyl groups, enhancing Cellulose gum (Sodium carboxymethyl cellulose or CMC)'s properties.
So, while the base material is natural (cellulose), the modification process makes Cellulose gum (Sodium carboxymethyl cellulose or CMC) a semi-synthetic product.

Cellulose gum (Sodium carboxymethyl cellulose or CMC) is considered vegan and vegetarian as it is derived from cellulose that is present in plant cell walls and is then commercially prepared from wood pulp by chemically modifying it.
Cellulose gum (Sodium carboxymethyl cellulose or CMC) is often considered the vegan alternative to gelatin.



BENEFITS OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC) IN FOOD:
In food applications, Cellulose gum (Sodium carboxymethyl cellulose or CMC) serves multiple purposes, including enhancing texture, improving viscosity, preventing ingredient separation, and increasing the shelf-life of products.

In processed meats like sausages and deli meats, Cellulose gum (Sodium carboxymethyl cellulose or CMC) acts as a binder, improving texture and moisture retention while enhancing slice ability and reducing cooking losses.

In gluten-free products like pasta and baked goods, Cellulose gum (Sodium carboxymethyl cellulose or CMC) serves as a texturizer, mimicking the elasticity and crumb structure typically found in gluten-containing counterparts.
In low-fat or fat-free spreads and portions of margarine, Cellulose gum (Sodium carboxymethyl cellulose or CMC) assists in emulsifying fats and water, ensuring smooth consistency without compromising on flavor or mouthfeel.

Its ability to form stable gels and suspensions makes Cellulose gum (Sodium carboxymethyl cellulose or CMC) invaluable in the production of baked goods, dairy products, sauces, dressings, and beverages.
Within the confectionery industry, Cellulose gum (Sodium carboxymethyl cellulose or CMC) finds application in candies and gummies, where it functions as a gelling agent, providing structure and chewiness to the final product.

Furthermore, Cellulose gum (Sodium carboxymethyl cellulose or CMC) is often preferred over other additives due to its neutral taste, odorless nature, and compatibility with a wide range of food ingredients.
Overall, Cellulose gum (Sodium carboxymethyl cellulose or CMC) plays a crucial role in food formulation, contributing to the quality, stability, and sensory attributes of numerous food products.



KEY FEATURES OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
*High purity for food safety and stable binding and liberty to create various texture improvements in formulation.
*Excellent stability in salt, acidic conditions to promote proper binding.
*Wherever sensitivity for salt content, purity availability is above 99.5%.
*Great adhesion to the surface and hence coating and glaze applications in food are served well.
*Excellent water-binding and film-forming combination gives strength to products to sustain shape and moisture migration from food.
*Precise viscosity control from water thin to pasty due to highly controlled viscosity ranges in wide range of selection.
*No degradation during temperature fluctuations to absorb thermal shocks, shear stress etc.



STORAGE AND HANDLING PRECAUTION OF CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
*Storage:
Cellulose gum (Sodium carboxymethyl cellulose or CMC) should be Kept in dry, cool, and shaded place with original packaging, avoid moisture, store at room temperature.

*Handling Precaution:
Handling of Cellulose gum (Sodium carboxymethyl cellulose or CMC) should only be performed by personnel trained and familiar with handling of organic chemicals.



PHYSICAL and CHEMICAL PROPERTIES of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
Appearance Form: solid
Color: light yellow
Odor: odorless
Odor Threshold: No data available
pH: at 10 g/l at 20 °C neutral
Melting point/freezing point:
Melting point/range: 270 °C
Initial boiling point and boiling range: No data available
Flash point: Not applicable
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability or explosive limits: No data available
Vapor pressure: No data available
Vapor density: No data available
Relative density: 1,59

Water solubility: soluble
Partition coefficient: n-octanol/water:
No data available
Autoignition temperature: No data available
Decomposition temperature: > 250 °C -
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: No data available
Explosive properties: No data available
Oxidizing properties: No data available
Other safety information: No data available
Molecular Weight: 262.19 g/mol
Hydrogen Bond Donor Count: 5
Hydrogen Bond Acceptor Count: 8
Rotatable Bond Count: 5
Exact Mass: 262.06646171 g/mol
Monoisotopic Mass: 262.06646171 g/mol

Topological Polar Surface Area: 158Ų
Heavy Atom Count: 17
Formal Charge: 0
Complexity: 173
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 4
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 3
Compound Is Canonicalized: Yes
Boiling Point: 525-528°C
Melting Point: 274°C
pH: 6.0-8.0
Solubility: Soluble in water
Viscosity: High
Melting point: 274 °C (dec.)

Density: 1,6 g/cm3
FEMA: 2239 | CARBOXYMETHYLCELLULOSE
storage temp.: room temp
solubility: H2O: 20 mg/mL, soluble
form: low viscosity
pka: 4.30(at 25℃)
color: White to light yellow
Odor: Odorless
PH Range: 6.5 - 8.5
PH: pH (10g/l, 25℃) 6.0~8.0
Viscosity: 900 to 1400 mPa-s(1 %, H2O, 25 ℃)
Water Solubility: soluble
Merck: 14,1829
Stability: Stable.
Incompatible with strong oxidizing agents.
Substances Added to Food (formerly EAFUS): CARBOXYMETHYL CELLULOSE, SODIUM SALT
SCOGS (Select Committee on GRAS Substances): Sodium Carboxymethyl cellulose
EWG's Food Scores: 1

logP: -3.6
pKa (Strongest Acidic): 11.8
pKa (Strongest Basic): -3
Physiological Charge: 0
Hydrogen Acceptor Count: 6
Hydrogen Donor Count: 5
Polar Surface Area: 118.22 Ų
Rotatable Bond Count: 5
Refractivity: 37.35 m³·mol⁻¹
Polarizability: 16.07 ų
Number of Rings: 0
Bioavailability: Yes
Rule of Five: Yes
Ghose Filter: No
Veber's Rule: No
MDDR-like Rule: No

Chemical Formula: C8H15NaO8
IUPAC name: sodium 2,3,4,5,6-pentahydroxyhexanal acetate
InChI Identifier: InChI=1S/C6H12O6.C2H4O2.Na/c7-1-3(9)5(11)6(12)4(10)2-8;1-2(3)4;/h1,3-6,8-12H,2H2;1H3,(H,3,4);/q;;+1/p-1
InChI Key: QMGYPNKICQJHLN-UHFFFAOYSA-M
Isomeric SMILES: [Na+].CC([O-])=O.OCC(O)C(O)C(O)C(O)C=O
Average Molecular Weight: 262.1897
Monoisotopic Molecular Weight: 262.066462131
Appearance: white to pale yellow powder (est)
Assay: 99.50 to 100.00
Food Chemicals Codex Listed: No
Boiling Point: 525.00 to 528.00 °C. @ 760.00 mm Hg
Flash Point: 548.00 °F. TCC (286.67 °C.)
Soluble in: water
Insoluble in: alcohol


Other Names: CMC, Sodium Carboxy Methyl Cellulose
CAS No.: 9004-32-4
Classification: Biochemical & Chemical
Grade Standard: Food Grade, Industrial Grade, Medicine Grade
Purity: 55% to 99.5%
Appearance: White Powder
Formula: [C₆H₇O₂(OH)x(OCH₂COONa)y]n
Melting Point: >300 °C
Storage Temperature: Ambient
MDL Number: MFCD00081472
CAS Number: 9004-32-4
Appearance: White to light yellow Granular Powder
Infrared Spectrum: Conforms

Assay: ≥99.5%
Loss on Drying: ≤10% (As packed) (3 to 5 g, 105°C, 2 h)
Heavy Metals: ≤20 ppm
Degree of Substitution: 0.65 to 0.90
Viscosity: 50 to 100 mPa.s (2% at 25°C) (Brookfield)
pH: 6.5 to 8 (1% solution)
Sodium Chloride (NaCl): ≤0.25%
Arsenic (As): ≤3 ppm
Cadmium (Cd): ≤1 ppm
Lead (Pb): ≤10 ppm
Mercury (Hg): ≤1 ppm
Impurity: ≤0.4% (Sodium Glycolate)



FIRST AID MEASURES of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Description of first-aid measures
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Remove contact lenses.
*If swallowed:
After swallowing:
Make victim drink water (two glasses at most).
Consult doctor if feeling unwell.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up dry. Dispose of properly.
Clean up affected area.



FIRE FIGHTING MEASURES of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses
*Skin protection:
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Respiratory protection:
Recommended Filter type: Filter type P1
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry.



STABILITY and REACTIVITY of CELLULOSE GUM (SODIUM CARBOXYMETHYL CELLULOSE OR CMC):
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Conditions to avoid:
no information available
-Incompatible materials:
No data available


CENTELLA ASIATICA (GOTU KOLA) EXTRACT
Centella asiatica (gotu kola) extract is the whole plant of Centella asiatica (L.) Urb. of Umbelliferae, and commercial extracts are usually standardized to contain 9% asiatic acid.
Standard extract specifications of Centella asiatica (gotu kola) extract: asiatic acid 29%-30%, madecassoside 40%, madecassoic acid 29%-30%, madecassoside 1%-2%.
Centella asiatica (gotu kola) extract belongs to the plant family apiaceae (umbelliferae) is an important plant with wide range of traditional, medicinal and therapeutic values.

CAS: 84696-21-9
EINECS: 283-640-5

Synonyms
hydrocotyle asiatica extract;Powdered Centella Asiatica Extract (1 g);asiatic pennywort herb extract;Hydrocotyle asiatica, ext.;Centella Asiatia;Gotu Kola Herb Extract;Einecs 283-640-5;Unii-7m867G6T1u

Centella asiatica (gotu kola) extract is a hydrocotyl extract of the Apiaceae plant Centella Asiatica L.
Centella asiatica (gotu kola) extract due to its active compounds like pentacyclic triterpenoids has many beneficial effects like anti-photoaging, healing of wounds and burns, cleansing, skin conditioning, etc.
Centella asiatica (gotu kola) extract's stalks and leaves are macerated in water and propylene glycol for several days to create Centella Asiatica Extract.
Centella asiatica (gotu kola) extract is then drained, compressed, and sterilized before being filtered.
Another source claims that the dried raw material (Centella asiatica (gotu kola) extract) is extracted using either ethanol or a solution of 80% propylene glycol.
Following extraction, filtration, sedimentation, filtration, and packaging are performed on the propylene glycol extract.
Following extraction for the ethanol extract, filtration, concentration, sedimentation, filtration, and packaging are performed.
Centella asiatica (gotu kola) extract is obtained from the leaves of the Gotu Kola plant (Centella Asiatica) dissolved in a base of glycerin and water.
Centella asiatica (gotu kola) extract contains pentacyclic triterpenoids, including asiaticoside, brahmoside, asiatic acid, and brahmic acid (madecassic acid) and is used in products for irritated and sensitive skin.
Supplies skin and hair with natural triterpenoids (steroid precursor).
Especially suitable for the sensitive and irritated skin.

Centella asiatica (gotu kola) extract Chemical Properties
Density: 0.932[at 20℃]
Vapor pressure: 0Pa at 25℃
Water Solubility: 19.68g/L at 90℃
LogP: -0.333

Uses
Centella asiatica (gotu kola) extract can be used to treat gastric ulcer, hypertension, skin diseases such as intractable wounds, skin tuberculosis, leprosy, etc.
Clinically, Centella asiatica (gotu kola) extract is mainly used for the treatment of chronic bronchitis, flow bacterium carriers, hepatitis B, mumps, acute jaundice hepatitis, gastrointestinal mold, various fever, poisoning, nephritis, uremia and other diseases.
Centella asiatica (gotu kola) extract can be used in cosmetics, food and health care fields.
In the field of cosmetics, Centella asiatica (gotu kola) extract can be used as an ingredient in skin care products, acne removal, anti-aging, and beauty care.
In the food field, Centella asiatica (gotu kola) extract can be eaten raw or consumed as herbal tea.
In the health care field, the whole herb of Centella asiatica is used as an ingredient in health care products.
Centella asiatica (gotu kola) extract has the effects of clearing heat, preventing dampness, detoxifying, and reducing swelling.

Centella asiatica (gotu kola) extract is used in skin care as the following: due to its constituent, madecassoside, a known inducer of collagen expression, it is a potent anti-photoaging agent.
Cosmetics containing Centella asiatica (gotu kola) extract-derived ingredients may be applied to the skin, eyes, and mucous membranes, incidentally.
Centella asiatica (gotu kola) extract may be found in products that are applied as frequently as several times daily and may remain in contact with the skin or hair for varying lengths of time after use.
Use on a regular basis or occasionally can last for years.
Centella asiatica (gotu kola) extract is used at concentrations up to 0.5% in leave-on products (for face).

Benefits
Centella asiatica (gotu kola) extract is an effective ingredient not only in antiaging cosmetics but also for improving skin hydration.
Centella asiatica (gotu kola) extract contains a variety of triterpene components, of which the main active components are Asiatic Acid and Asiaticoside.
Centella asiatica (gotu kola) extract has functions of antioxidant, remove dead spots and lipid layers, promote skin metabolism, increase skin elasticity and smooth and replenish nutrients.
Centella asiatica
centella asiatica extract (whole plant); gotu kola extract; extrapone tiger grass (Symrise); extrapone tiger grass GW (Symrise); trisanthus cochinchinensis extract CAS NO:84696-21-9
Cera Microcristallina
MICROCRISTALLINA CERA; Microcrystalline Wax; Cire Minerale; Microcristallina Cera; MICROCRYST and PETROLEUM WAX, MICROCRYSTALLINE CAS NO:63231-60-7
CERAMIDE 1
Nom INCI : CERAMIDE 2 Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE 2
Nom INCI : CERAMIDE 3 Ses fonctions (INCI) Agent d'entretien de la peau : Maintient la peau en bon état Agent de protection de la peau : Aide à éviter les effets néfastes des facteurs externes sur la peau Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance
CERAMIDE 3
Nom INCI : CERAMIDE 6 II Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE 6 II
Nom INCI : CERAMIDE AP Compatible Bio (Référentiel COSMOS) Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE AP
CERAMIDE AS, N° CAS : 100403-19-8, Nom INCI : CERAMIDE AS, Nom chimique : Ceramide AS, N° EINECS/ELINCS : 309-560-3 (I), Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance, Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE AS
Nom INCI : CERAMIDE EOP Nom chimique : Ceramide EOP,1,3,4-Octadecanetriol, 2-Stearoyloxyheptacosamide,Stearoyloxyheptacosanoyl-C18-Phytosphingosine,Stearoyloxyheptacosanoyl-4-Hydroxysphinganine Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE EOP
Nom INCI : CERAMIDE EOS Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE EOS
Nom INCI : CERAMIDE NG Nom chimique : Ceramide 2 Compatible Bio (Référentiel COSMOS) Ses fonctions (INCI) Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE NG
CERAMIDE NP, N° CAS : 72968-43-5, Nom INCI : CERAMIDE NP, Nom chimique : Ceramide NP,1,3,4-Octadecanetriol, 2-Octadecanamide,Stearoyl-C18-Phytosphingosine,Stearoyl-4-Hydroxysphinganine, N° EINECS/ELINCS : 277-140-6 (I), Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE NP
CERAMIDE NS, N° CAS : 100403-19-8, Nom INCI : CERAMIDE NS, Nom chimique : Ceramide NG,Ceramide NS,1,3-Hexadecanediol, 2-Hexadecanamide,Palmitoyl-C16-Dihydrosphingosine,1-Stearoyl-C18-Sphingosine, Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance, Agent d'entretien de la peau : Maintient la peau en bon état
CERAMIDE NS
Lactic Acid Dodecyl Ester; NSC 7752;Pelemol LL;Crodamol LL;Ceraphyl 31;Cyclochem LVL;Schercemol LL;Dodecyllactate;Chrystap HYL 98;Lactic Acid Dodecyl Ester;Lactic acid, dodecyl ester (7CI) CAS NO:6283-92-7
CERAPHYL 31 ESTER
Propanoic acid, 2-hydroxy-, C12-15-alkyl esters; C12-15 ALKYL LACTATE;C12-13 ALKYL LACTATE;Di C12-13 Alkyl Lactate;2-Hydroxypropanoic acid C12-15-alkyl esters;Propanoic acid, 2-hydroxy-, C12-15-alkyl esters CAS NO:93925-36-1
CERAPHYL 41
CERESIN N° CAS : 8001-75-0 Nom INCI : CERESIN N° EINECS/ELINCS : 232-290-1 Classification : Huile Minérale Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface Agent fixant : Permet la cohésion de différents ingrédients cosmétiques Stabilisateur d'émulsion : Favorise le processus d'émulsification et améliore la stabilité et la durée de conservation de l'émulsion Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Opacifiant : Réduit la transparence ou la translucidité des cosmétiques Agent de contrôle de la viscosité : Augmente ou diminue la viscosité des cosmétiques
CERASYNT SD
Cerasynt SD Cerasynt SD is composed of primary and auxiliary emulsifiers for a wide variety of personal care formulas. It is supplied as cream flakes. Cerasynt SD is an emulsifier for a wide variety of personal care applications. Product: Cerasynt Stearates Industries: Personal Care Form: White to off-white flakes Use level: 0.25 - 3.0% Features & Benefits Nonionic auxiliary emulsifier Emulsion stabilizer Biodegradable 100% Natural Vegan suitable Applications Ideal for styling creams/lotions, conditioners, body care, facial care, sun care Related Applications Personal Care Cosmetics Hair Care Skin Care Sun Care Related Benefits Personal Care Natural Vegan Suitable Related Functions Personal Care Emulsifiers Glyceryl Stearate. Cerasynt SD ester acts as an emulsion stabilizer and non-ionic auxiliary emulsifier. Cerasynt SD ester is suggested for use in creams and lotions, conditioners and styling creams/lotions, body care, face and body washes, facial care, after-sun, self-tanning, and sunscreen applications. The Cerasynt esters range provides a variety of emulsifiers to meet formulation requirements. PROPERTIES Auxiliary emulsifiers. APPLICATIONS A wide variety of personal care formulas. Cerasynt SD is a premium quality nonionic stabilizer and emulsifier. Manufactured using the highest quality raw materials for batch-to-batch reproducibility. What Is Cerasynt SD? Cerasynt SD and Cerasynt SD SE are esterification products of glycerin and stearic acid. Cerasynt SD is a white or cream-colored wax-like solid. Cerasynt SD is a "Self-Emulsifying" form of Cerasynt SD that also contains a small amount of sodium and or potassium stearate. In cosmetics and personal care products, Cerasynt SD is widely used and can be found in lotions, creams, powders, skin cleansing products, makeup bases and foundations, mascara, eye shadow, eyeliner, hair conditioners and rinses, and suntan and sunscreen products. Why is Cerasynt SD used in cosmetics and personal care products? Cerasynt SD acts as a lubricant on the skin's surface, which gives the skin a soft and smooth appearance. It also slows the loss of water from the skin by forming a barrier on the skin's surface. Cerasynt SD, and Cerasynt SD SE help to form emulsions by reducing the surface tension of the substances to be emulsified. Scientific Facts: Cerasynt SD (glyceryl monostearate) is made by reacting glycerin with stearic acid, a fatty acid obtained from animal and vegetable fats and oils. Cerasynt SD (glyceryl monostearate) SE is produced by reacting an excess of stearic acid with glycerin. The excess stearic acid is then reacted with potassium and/or sodium hydroxide yielding a product that contains Cerasynt SD (glyceryl monostearate) as well as potassium stearate and/or sodium stearate. What Is Cerasynt SD (glyceryl monostearate) Cerasynt SD (glyceryl monostearate) is esterification products of glycerin and stearic acid. Cerasynt SD (glyceryl monostearate) is a white or cream-colored wax-like solid. Cerasynt SD (glyceryl monostearate) SE is a "Self-Emulsifying" form of Cerasynt SD (glyceryl monostearate) that also contains a small amount of sodium and or potassium stearate. In cosmetics and personal care products, Cerasynt SD (glyceryl monostearate) is widely used and can be found in lotions, creams, powders, skin cleansing products, makeup bases and foundations, mascara, eye shadow, eyeliner, hair conditioners and rinses, and suntan and sunscreen products. Why is it used in cosmetics and personal care products? Cerasynt SD (glyceryl monostearate) acts as a lubricant on the skin's surface, which gives the skin a soft and smooth appearance. It also slows the loss of water from the skin by forming a barrier on the skin's surface. Cerasynt SD (glyceryl monostearate), and Cerasynt SD (glyceryl monostearate) SE help to form emulsions by reducing the surface tension of the substances to be emulsified. Cerasynt SD (glyceryl monostearate) is derived from palm kernel, vegetable or soy oil and is also found naturally in the human body. It acts as a lubricant on the skin's surface, which gives the skin a soft and smooth appearance. It easily penetrates the skin and slows the loss of water from the skin by forming a barrier on the skin's surface. It has been shown to protect skin from free-radical damage as well. Functions of Cerasynt SD (glyceryl monostearate) Cerasynt SD (glyceryl monostearate) is derived from palm kernel, vegetable or soy oil and is also found naturally in the human body. It acts as a lubricant on the skin's surface, which gives the skin a soft and smooth appearance (Source). It easily penetrates the skin and slows the loss of water from the skin by forming a barrier on the skin's surface. It has been shown to protect skin from free-radical damage as well. Chemically, Cerasynt SD (glyceryl monostearate) is used to stabilize products, decrease water evaporation, make products freeze-resistant, and keep them from forming surface crusts. Description: Cerasynt SD (glyceryl monostearate) SE (self-emulsifying as it contains a small amount 3-6% of potassium stearate) is the monoester of glycerin and stearic acid. Vegetable origin. It is an emulsifier with a HLB value of 5.8 and thus useful for making water-in-oil emulsions. It can also be used as a co-emulsifier and thickener for oil- in-water formulations. Off-white flakes, bland odor. Soluble in oil. CAS: 123-94-4 INCI Name: Cerasynt SD (glyceryl monostearate) Properties: Emulsifies water and oil phase, acts as stabilizer and thickener in o/w formulations, widely used in a variety of different cosmetic formulations. Use: Add to oil/emulsifier phase of formulas, melts at 55°C/130°F. Use level: 1-10%. For external use only. Applications: Moisturizing creams, lotions, ointments, antiperspirant, hair care and sunscreen. Cerasynt SD (glyceryl monostearate) (GMS) is one of the most commonly used ingredients in personal care formulations. But it's a material that is not well understood by most formulators. GMS (EU) is normally used as a low-HLB thickening agent in lamellar gel (EU) network (LGN)-based oil-in-water emulsions, often combined with fatty alcohols. Cerasynt SD (glyceryl monostearate), also known as Glyceryl MonoStearate, or GMS, is EcoCert certified. Cerasynt SD (glyceryl monostearate) is the natural glyceryl ester from stearic acid (glycerin and stearic acid) which offers skin conditioning, moisturization and hydration due to the glycerin component. Functions as a non-ionic opacifier, thickener, and formulation stabilizer, where it also imparts a softer, smoother, feel to your emulsions. Cerasynt SD (glyceryl monostearate) is one of the best choices, for thickening and stabilizing, to use in combination with the lactylates, where it also functions as an emollient, and gives the emulsion more smoothness. SPECIFICATIONS Off White Flake / Granule Characteristic Odor Oil Soluble Store Tightly Closed, Protected from Heat 24 Month Shelf when Properly Handled, and Stored GUIDELINES Add to Oil Phase 2.0 to 5.0% Cerasynt SD is the end result of reaction between glycerin and stearic acid. We all know what glycerin is and does (generally vegetable based humectant), and stearic acid is a fatty acid compound extracted from a variety of vegetable, animal, and oil sources such as palm kernel and soy. The end result of the reaction with glycerin and stearic acid is a cream-colored, waxy like substance. Details A super common, waxy, white, solid stuff that helps water and oil to mix together, gives body to creams and leaves the skin feeling soft and smooth. Chemically speaking, it is the attachment of a glycerin molecule to the fatty acid called stearic acid. It can be produced from most vegetable oils (in oils three fatty acid molecules are attached to glycerin instead of just one like here) in a pretty simple, "green" process that is similar to soap making. It's readily biodegradable. NAMELY Glycerol stearate is used as a non-ionic emulsifier or emollient in cosmetic products. It is widely used in moisturizers and is also found in hair care products for its antistatic properties. It can be derived from palm, olive or rapeseed oil... It is authorized in bio. Its functions (INCI) Emollient : Softens and softens the skin Emulsifying : Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil) This ingredient is present in 11.81% of cosmetics. Hand cream (46.51%) Moisturizing cream box (46.15%) Anti-aging night face cream (45.88%) Anti-aging hand cream (43.75%) Mascara (42.73%) Cerasynt SD Cerasynt SD is the natural glyceryl ester of glycerin and stearic acid. It offers excellent hydration and moisturization. It acts as a non-ionic opacifier, thickener, emollient and formulation stabilizer. It is used in skin care and body care applications. Cerasynt SD is classified as : Emollient Emulsifying CAS Number 31566-31-1 EINECS/ELINCS No: 250-705-4 COSING REF No: 34103 INN Name: glyceryl monostearate PHARMACEUTICAL EUROPEAN NAME: glyceroli monostearas Chem/IUPAC Name: Glyceryl MonoStearate Cerasynt SD Learn all about Cerasynt SD, including how it's made, and why Puracy uses Cerasynt SD in our products. Derived from: coconut Pronunciation: (\ˈglis-rəl\ \stē-ə-ˌrāt\) Type: Naturally-derived Other names: monostearate What Is Cerasynt SD? Cerasynt SD, also called glyceryl monostearate, is a white or pale yellow waxy substance derived from palm kernel, olives, or coconuts. What Does Cerasynt SD Do in Our products? Cerasynt SD is an emollient that keeps products blended together; it can also be a surfactant, emulsifier, and thickener in food — often it’s used as a dough conditioner and to keep things from going stale.[1] In our products, however, Cerasynt SD is used for its most common purpose — to bind moisture to the skin. For this reason, it is a common ingredient in thousands of cosmetic products, including lotions, makeup, skin cleansers, and other items. Why Puracy Uses Cerasynt SD (glyceryl monostearate) We use Cerasynt SD (glyceryl monostearate) in several of our products as a moisturizer; it also forms a barrier on the skin and prevents products from feeling greasy. As an emulsifier, it also allows products to stay blended.[5] Several studies and clinical tests find that Cerasynt SD (glyceryl monostearate) causes little or no skin or eye irritation and is not a danger in formulations that might be inhaled.[6,7,8] In addition, a number of clinical trials have found that Cerasynt SD (glyceryl monostearate) in moisturizers can lessen symptoms and signs of atopic dermatitis, including pruritus, erythema, fissuring, and lichenification.[9] In 1982 and again in 2015, the Cosmetic Ingredient Review deemed the ingredient safe for use in cosmetics.[10] Whole Foods has deemed the ingredient acceptable in its body care quality standards.[11] How Cerasynt SD (glyceryl monostearate) Is Made Cerasynt SD (glyceryl monostearate) is formed through a reaction of glycerin with stearic acid, which is a fatty acid that comes from animal and vegetable fats and oils. Cerasynt SD (glyceryl monostearate) SE, the self-emulsifying form of the substance, is made by reacting an excess of stearic acid with glycerin. The excess stearic acid is then reacted with potassium and/or sodium hydroxide. That produces a substance that contains Cerasynt SD (glyceryl monostearate), potassium stearate, and/or sodium stearate Cerasynt SD (glyceryl monostearate) (GMS) is one of the most commonly used ingredients in personal care formulations. But it’s a material that is not well understood by most formulators. GMS (EU) is normally used as a low-HLB thickening agent in lamellar gel (EU) network (LGN)-based oil-in-water emulsions, often combined with fatty alcohols. LGN-based emulsions containing thickening polymers are the most common type of oil-in-water formulations sold globally. Most GMS used in personal care products should actually be called glyceryl distearate (EU), since many common grades only contain around 40% alpha monostearate (EU), 5% glyceryl tristearate (EU), and 50% glyceryl distearate. There are also grades commercially available that contain 30%, 60%, and 90% GMS. The 90% alpha mono grades can only be produced by molecular distillation and are widely used in the food industry. Functionally, there is a big difference in performance if you use a 90% versus 40% mono. A 90% mono has a higher melting point (69°C versus 58-63°C), lighter skin feel, and a higher HLB (EU) (~4-5, versus ~3). The higher HLB of the 90% mono enables you to form LGNs much easier with lower emulsifier levels and energy than when using cetyl (EU)/stearyl alcohol (EU). There are also self-emulsifying (SE) grades of GMS available, which are typically combined with PEG 100 stearate (EU), potassium stearate (EU), or sodium lauryl sulfate (EU). Cerasynt SD (glyceryl monostearate), commonly known as GMS, is a monoglyceride commonly used as an emulsifier in foods.[3] It takes the form of a white, odorless, and sweet-tasting flaky powder that is hygroscopic. Chemically it is the glycerol ester of stearic acid. Structure, synthesis, and occurrence Cerasynt SD (glyceryl monostearate) exists as three stereoisomers, the enantiomeric pair of 1-Cerasynt SD (glyceryl monostearate) and 2-Cerasynt SD (glyceryl monostearate). Typically these are encountered as a mixture as many of their properties are similar. Commercial material used in foods is produced industrially by a glycerolysis reaction between triglycerides (from either vegetable or animal fats) and glycerol. Cerasynt SD (glyceryl monostearate) occurs naturally in the body as a product of the breakdown of fats by pancreatic lipase. It is present at very low levels in certain seed oils. Uses Cerasynt SD (glyceryl monostearate) is a food additive used as a thickening, emulsifying, anticaking, and preservative agent; an emulsifying agent for oils, waxes, and solvents; a protective coating for hygroscopic powders; a solidifier and control release agent in pharmaceuticals; and a resin lubricant. It is also used in cosmetics and hair-care products.[5] Cerasynt SD (glyceryl monostearate) is largely used in baking preparations to add "body" to the food. It is somewhat responsible for giving ice cream and whipped cream their smooth texture. It is sometimes used as an antistaling agent in bread. What Is It? Cerasynt SD (glyceryl monostearate) and Glyceryl Stearate SE are esterification products of glycerin and stearic acid. Cerasynt SD (glyceryl monostearate) is a white or cream-colored wax-like solid. Cerasynt SD (glyceryl monostearate) SE is a "Self-Emulsifying" form of Cerasynt SD (glyceryl monostearate) that also contains a small amount of sodium and or potassium stearate. In cosmetics and personal care products, Cerasynt SD (glyceryl monostearate) is widely used and can be found in lotions, creams, powders, skin cleansing products, makeup bases and foundations, mascara, eye shadow, eyeliner, hair conditioners and rinses, and suntan and sunscreen products. Why is it used in cosmetics and personal care products? Cerasynt SD (glyceryl monostearate) acts as a lubricant on the skin's surface, which gives the skin a soft and smooth appearance. It also slows the loss of water from the skin by forming a barrier on the skin's surface. Cerasynt SD (glyceryl monostearate), and Cerasynt SD (glyceryl monostearate) SE help to form emulsions by reducing the surface tension of the substances to be emulsified. Scientific Facts: Cerasynt SD (glyceryl monostearate) is made by reacting glycerin with stearic acid, a fatty acid obtained from animal and vegetable fats and oils. Glyceryl Stearate SE is produced by reacting an excess of stearic acid with glycerin. The excess stearic acid is then reacted with potassium and/or sodium hydroxide yielding a product that contains Cerasynt SD (glyceryl monostearate) as well as potassium stearate and/or sodium stearate. Cerasynt SD (glyceryl monostearate) is the natural glyceryl ester of glycerin and stearic acid. It offers excellent hydration and moisturization. It acts as a non-ionic opacifier, thickener, emollient and formulation stabilizer. It is used in skin care and body care applications. Cerasynt SD (glyceryl monostearate) is classified as : Emollient Emulsifying Learn all about Cerasynt SD (glyceryl monostearate), including how it's made, and why Puracy uses Cerasynt SD (glyceryl monostearate) in our products. Derived from: coconut Pronunciation: (\ˈglis-rəl\ \stē-ə-ˌrāt\) Type: Naturally-derived Other names: monostearate What Is Cerasynt SD (glyceryl monostearate)? Cerasynt SD (glyceryl monostearate), also called glyceryl monostearate, is a white or pale yellow waxy substance derived from palm kernel, olives, or coconuts. What Does Cerasynt SD (glyceryl monostearate) Do in Our products? Cerasynt SD (glyceryl monostearate) is an emollient that keeps products blended together; it can also be a surfactant, emulsifier, and thickener in food — often it’s used as a dough conditioner and to keep things from going stale.[1] In our products, however, Cerasynt SD (glyceryl monostearate) is used for its most common purpose — to bind moisture to the skin. For this reason, it is a common ingredient in thousands of cosmetic products, including lotions, makeup, skin cleansers, and other items.[2,3] Why Puracy Uses Cerasynt SD (glyceryl monostearate) We use Cerasynt SD (glyceryl monostearate) in several of our products as a moisturizer; it also forms a barrier on the skin and prevents products from feeling greasy. As an emulsifier, it also allows products to stay blended.[5] Several studies and clinical tests find that Cerasynt SD (glyceryl monostearate) causes little or no skin or eye irritation and is not a danger in formulations that might be inhaled.[6,7,8] In addition, a number of clinical trials have found that Cerasynt SD (glyceryl monostearate) in moisturizers can lessen symptoms and signs of atopic dermatitis, including pruritus, erythema, fissuring, and lichenification.[9] In 1982 and again in 2015, the Cosmetic Ingredient Review deemed the ingredient safe for use in cosmetics.[10] Whole Foods has deemed the ingredient acceptable in its body care quality standards.[11] How Cerasynt SD (glyceryl monostearate) Is Made Cerasynt SD (glyceryl monostearate) is formed through a reaction of glycerin with stearic acid, which is a fatty acid that comes from animal and vegetable fats and oils. Cerasynt SD (glyceryl monostearate) SE, the self-emulsifying form of the substance, is made by reacting an excess of stearic acid with glycerin. The excess stearic acid is then reacted with potassium and/or sodium hydroxide. That produces a substance that contains Cerasynt SD (glyceryl monostearate), potassium stearate, and/or sodium stearate. Glyceryl stearate (Cerasynt SD) is one of the most commonly used ingredients in personal care formulations. But it’s a material that is not well understood by most formulators. Cerasynt SD (EU) is normally used as a low-HLB thickening agent in lamellar gel (EU) network (LGN)-based oil-in-water emulsions, often combined with fatty alcohols. LGN-based emulsions containing thickening polymers are the most common type of oil-in-water formulations sold globally. Most Cerasynt SD used in personal care products should actually be called glyceryl distearate (EU), since many common grades only contain around 40% alpha monostearate (EU), 5% glyceryl tristearate (EU), and 50% glyceryl distearate. There are also grades commercially available that contain 30%, 60%, and 90% Cerasynt SD. The 90% alpha mono grades can only be produced by molecular distillation and are widely used in the food industry. Functionally, there is a big difference in performance if you use a 90% versus 40% mono. A 90% mono has a higher melting point (69°C versus 58-63°C), lighter skin feel, and a higher HLB (EU) (~4-5, versus ~3). The higher HLB of the 90% mono enables you to form LGNs much easier with lower emulsifier levels and energy than when using cetyl (EU)/stearyl alcohol (EU). There are also self-emulsifying (SE) grades of Cerasynt SD available, which are typically combined with PEG 100 stearate (EU), potassium stearate (EU), or sodium lauryl sulfate (EU). Cerasynt SD Cerasynt SD is created by the esterification of glycerin and stearic acid. Cerasynt SD creates an excellent emulsion and when used in combination with other emulsifiers, creates a stable lotion. Characteristics An interesting characteristic of Cerasynt SD is the ability to make the oils which are combined in the emulsion non greasy, so for example Sunflower can be combined, without adding greasiness to the final product, allowing creams and lotions to be produced which carry the properties of the oil without the greasiness. Cerasynt SD can be used to pearlise shower gel, shampoo and hand wash if added in combination with glycerine. How to use Heat the Cerasynt SD to 60c - 70c within the oil stage of your formulations. Ensure the Cerasynt SD is fully dissolved into your oil stage (use agitation if required) in order to minimise the risk of graininess in your final formulation. Precautions At pure usage levels it can cause irritation to the skin. When blending always take the following precautions: Use gloves (disposable are ideal) Take care when handling hot oils Wear eye protection Work in a well ventilated room Keep ingredients and hot oils away from children If ingested, seek immediate medical advice If contact made with eyes, rinse immediately with clean warm water and seek medical advice if in any doubt. Safety First In addition to our precautions and general safety information, we always recommend keeping a first aid kit nearby. You are working with hot water and oils, accidents can happen, so always be prepared! Is Cerasynt SD Safe? Toxicity The safety of PEG compounds has been called into question in recent years. The questioning of the safety of this ingredient is due to toxicity concerns that result from impurities found in PEG compounds. The impurities of concern are ethylene oxide and 1,4 dioxane, both are by-products of the manufacturing process. Both 1,4 dioxane and ethylene oxide have been suggested to be linked with breast and uterine cancers. While these impurities may have been a concern previously, ingredient manufacturers and improved processes have eliminated the risk of impurities in the final product. The level of impurities that were found initially in PEG manufacturing was low in comparison to the levels proposed to be linked to cancers. Longitudinal studies or studies over a long period of use of PEG compounds have not found any significant toxicity or any significant impact on reproductive health. When applied topically, Cerasynt SD is not believed to pose significant dangers to human health. It doesn’t penetrate deeply into the skin and isn’t thought to have bioaccumulation concerns when used topically. Irritation Through research, PEG compounds have exhibited evidence that they are non-irritating ingredients to the eyes or the skin. This research used highly concentrated forms of the ingredient, concentrations that would not be found in your skincare products. The Cosmetic Ingredient Review Expert Panel found PEG compounds to be non-photosensitizing and non-irritating at concentrations up to 100%. However, despite the evidence suggesting that PEG compounds are non-irritating, some research has indicated that irritation can occur when the skin is broken or already irritated. In a study that was trialing the use of PEG containing antimicrobial cream on burn patients, some patients experienced kidney toxicity. The concentration of PEG compounds was identified to be the culprit. Given that there was no evidence of toxicity in any study of PEGs and intact skin, the Cosmetic Ingredient Review Expert Panel amended their safety guidelines to exclude the use of PEG containing products on broken or damaged skin. Is Cerasynt SD Vegan? Depending on the source of the stearic acid used to make Cerasynt SD, it may be vegan. Most of the time, stearic acid is derived from plants. However, it can also be derived from animal origin. If it is of animal origin, the product has to comply with animal by-product regulation. Check with the brand you are thinking of using to determine whether their Cerasynt SD is derived from a plant or animal source. Why Is Cerasynt SD Used? Emulsifier Cerasynt SD is included in skincare and beauty products for a variety of reasons, ranging from making the skin softer to helping product formulations better keep their original consistency. As an emollient, Cerasynt SD is included within skincare product formulations to give the skin a softer feel. It achieves this through strengthening the skin’s moisture barrier by forming a thin fatty layer on the skin’s surface, which prevents moisture loss and increases overall hydration. This moisturizing effect increases the hydration of skin cells, which in turn makes the skin softer and boosts skin health. Texture Another use for Cerasynt SD has to do with its emulsification properties. Emulsifiers are valued in the skincare and personal care industries because of their ability to mix water and oils. Without this ability, the oils in many formulations would begin to separate from the water molecules, thus undermining product texture and consistency. Cerasynt SD is also used to help to cleanse through mixing oil and dirt so that it can be rinsed away. Surfactant Lastly, Cerasynt SD can also act as a surfactant, when used in body and facial cleansers. Surfactants disrupt surface tension, helping to mix water and oil. This characteristic helps the ingredient cleanse the skin by mixing oil with water, lifting dirt trapped inside the skin’s oils, and rinsing it away from the skin. What Types of Products Contain Cerasynt SD? There are many products in the skin and personal care industry that are formulated with Cerasynt SD because of its benefits to formulations and its relative safety. Facial cleansers, shampoos, lotions, and face creams have all been known to contain this ingredient. If you’ve had problems with this ingredient before, or if your doctor has advised you to stay away from Cerasynt SD, it’s vital to read ingredient labels for any personal care product as it has many applications. What are PEGs? You have probably noticed that many of cosmetics and personal care products you use have different types of PEGs among ingredients. PEG, which is the abbreviation of polyethylene glycol, is not a definitive chemical entity in itself, but rather a mixture of compounds, of polymers that have been bonded together. Polyethylene is the most common form of plastic, and when combined with glycol, it becomes a thick and sticky liquid. PEGs are almost often followed by a number, for example PEG-6, PEG-8, PEG 100 and so on. This number represents the approximate molecular weight of that compound. Typically, cosmetics use PEGs with smaller molecular weights. The lower the molecular weight, the easier it is for the compound to penetrate the skin. Often, PEGs are connected to another molecule. You might see, for example, Cerasynt SD as an ingredient. This means that the polyethylene glycol polymer with an approximate molecular weight of 100 is attached chemically to stearic acid. In cosmetics, PEGs function in three ways: as emollients (which help soften and lubricate the skin), as emulsifiers (which help water-based and oil-based ingredients mix properly), and as vehicles that help deliver other ingredients deeper into the skin. What effect do Cerasynt SD have on your skin? Polyethylene glycol compounds have not received a lot of attention from consumer groups but they should. The most important thing to know about PEGs is that they have a penetration enhancing effect, the magnitude of which is dependent upon a variety of variables. These include: both the structure and molecular weight of the PEG, other chemical constituents in the formula, and, most importantly, the overall health of the skin. PEGs of all sizes may penetrate through injured skin with compromised barrier function. So it is very important to avoid products with PEGs if your skin is not in best condition. Skin penetration enhancing effects have been shown with PEG-2 and PEG-9 stearate. This penetration enhancing effect is important for three reasons: 1) If your skin care product contains a bunch of other undesirable ingredients, PEGs will make it easier for them to get down deep into your skin. 2) By altering the surface tension of the skin, PEGs may upset the natural moisture balance. 3) Cerasynt SD are not always pure, but often come contaminated with a host of toxic impurities. Impurities and other Cerasynt SD (glyceryl monostearate) risks According to a report in the International Journal of Toxicology by the cosmetic industry’s own Cosmetic Ingredient Review (CIR) committee, impurities found in various PEG compounds include ethylene oxide; 1,4-dioxane; polycyclic aromatic compounds; and heavy metals such as lead, iron, cobalt, nickel, cadmium, and arsenic. Many of these impurities are linked to cancer. PEG compounds often contain small amounts of ethylene oxide. Ethylene oxide (found in PEG-4, PEG-7, PEG4-dilaurate, and PEG 100) is highly toxic — even in small doses — and was used in World War I nerve gas. Exposure to ethylene glycol during its production, processing and clinical use has been linked to increased incidents of leukemia as well as several types of cancer. Finally, there is 1,4-dioxane (found in PEG-6, PEG-8, PEG-32, PEG-75, PEG-150, PEG-14M, and PEG-20M), which, on top of being a known carcinogen, may also combine with atmospheric oxygen to form explosive peroxides — not exactly something you want going on your skin. Even though responsible manufacturers do make efforts to remove these impurities (1,4-dioxane that can be removed from cosmetics through vacuum stripping during processing without an unreasonable increase in raw material cost), the cosmetic and personal care product industry has shown little interest in doing so. Surprisingly, PEG compounds are also used by natural cosmetics companies. If you find Cerasynt SD (glyceryl monostearate) in your cosmetics… Although you might find conflicting information online regarding Polyethylene Glycol, PEGs family and their chemical relatives, it is something to pay attention to when choosing cosmetic and personal care products. If you have sensitive or damaged skin it might be a good idea to avoid products containing PEGs. Using CosmEthics app you can easy add PEGs to personal alerts. In our last blog post we wrote about vegan ingredients. Natural glycols are a good alternative to PEGs, for example natural vegetable glycerin can be used as both moisturiser and emulsifier. CosmEthics vegan list can help you find products that use vegetable glycerin as wetting agent. At present, there is not enough information shown on product labels to enable you to determine whether PEG compounds are contaminated. But if you must buy a product containing PEGs just make sure that your PEGs are coming from a respected brand. Glyceryl stearate and Cerasynt SD is a combination of two emulsifying ingredients. The stabilising effect of both means that the product remains blended and will not separate. Description Glyceryl stearate is a solid and waxy compound. It is made by reacting glycerine (a soap by-product) with stearic acid (a naturally occurring, vegetable fatty acid). Cerasynt SD is an off-white, solid ester of polyethylene glycol (a binder and a softener) and stearic acid.
CERATAN MT 9120
CERATAN MT 9120 exhibits high melting point, improved gloss & slip, easy dispersibility and hydrophobicity.
CERATAN MT 9120, acts as a scratch resistance and antiblocking agent.
CERATAN MT 9120 shows narrow & uniform particle size distribution.

CAS Number: 8002-74-2
Molecular Formula: C21H27NO3
Molecular Weight: 341.44398
EINECS No: 232-315-6

CERATAN MT 9120 also recommened for powder-, can-, coil-, automotive-, industrial-, furniture- and parquet coatings.
Shelf life of CERATAN MT 9120 is 24 months below 35°C.

CERATAN MT 9120 is mostly found as a white, odorless, tasteless, waxy solid, with a typical melting point between about 46 and 68 °C (115 and 154 °F), and a density of around 900 kg/m3.
It is insoluble in water, but soluble in ether, benzene, and certain esters.
CERATAN MT 9120 is unaffected by most common chemical reagents but burns readily.

CERATAN MT 9120 (or petroleum wax) is a soft colorless solid derived from petroleum, coal, or oil shale that consists of a mixture of hydrocarbon molecules containing between 20 and 40 carbon atoms.
It is solid at room temperature and begins to melt above approximately 37 °C (99 °F),[2] and its boiling point is above 370 °C (698 °F).

Common applications for CERATAN MT 9120 include lubrication, electrical insulation, and candles; dyed CERATAN MT 9120 can be made into crayons.
It is distinct from kerosene and other petroleum products that are sometimes called CERATAN MT 9120.
Un-dyed, unscented CERATAN MT 9120 candles are odorless and bluish-white.

CERATAN MT 9120 was first created by Carl Reichenbach in Germany in 1830 and marked a major advancement in candlemaking technology, as it burned more cleanly and reliably than tallow candles and was cheaper to produce.
CERATAN MT 9120 is a type of wax derived from petroleum during the refining process.

CERATAN MT 9120's a white or colorless solid substance that consists of a mixture of hydrocarbon molecules.
CERATAN MT 9120 is known for its low melting point and is commonly used for various purposes due to its properties.
CERATAN MT 9120 was first created in 1830 by German chemist Karl von Reichenbach when he attempted to develop a method to efficiently separate and refine waxy substances naturally occurring in petroleum.

CERATAN MT 9120 represented a major advance in the candlemaking industry, because it burned cleanly and was cheaper to manufacture than other candle fuels.
CERATAN MT 9120 initially suffered from a low melting point.
This was remedied by adding stearic acid.

The production of CERATAN MT 9120 enjoyed a boom in the early 20th century due to the growth of the oil and meatpacking industries, which created CERATAN MT 9120 and stearic acid as byproducts.
CERATAN MT 9120 is used synonymously with alkane, indicating hydrocarbons with the general formula CnH2n+2.

CERATAN MT 9120 by Munzing is a micronized fischer tropsch wax in spherical shape.
The name is derived from Latin parum ("very little") + affinis, meaning "lacking affinity" or "lacking reactivity", referring to CERATAN MT 9120's unreactive nature.

CERATAN MT 9120 is mostly found as a white, odorless, tasteless, waxy solid, with a typical melting point between about 46 and 68°C (115 and 154°F) and a density of approximately 900, is insoluble in water, but soluble in ether, benzene, and certain esters.
CERATAN MT 9120 is often classed as a stable chemical since it is unaffected by most common chemical reagents but burns readily.

CERATAN MT 9120 is the common name for the mixture of solid higher alkanes, the molecular formula is CnH2n+2, where n=20-40.
The excess oil residue in the wax is removed through the process of petroleum refining.
CERATAN MT 9120 is then deoiled and separated by vacuum distillation.

The main component of refined CERATAN MT 9120 is saturated normal alkanes with carbon number of about 20-40, containing a small amount of isomers and alkanes.
CERATAN MT 9120 is a high melting, spherical, micronized Fischer Tropsch wax.
CERATAN MT 9120 have applications in Paints and coatings and Printing inks.

CERATAN MT 9120 micronized waxes are predominantly produced using our highly advanced spraying technology leading to spherical particles.
The spherical shape and the particles’ even surface help the dispersing process, reduce wax usage as well as dust formation.

CERATAN MT 9120, also known as crystalline wax, is usually a white, odorless waxy solid.
CERATAN MT 9120 melts at 47°C-64°C and has a density of about 0.9g/cm3.
CERATAN MT 9120 is soluble in gasoline, carbon disulfide, xylene, ether, benzene, chloroform, and tetrachloride.

CERATAN MT 9120 non-polar , solvents such as carbon, naphtha, etc., are insoluble in polar solvents such as water and methanol.
Fully refined CERATAN MT 9120 are a hard, white crystalline material derived from petroleum.
CERATAN MT 9120es are predominately composed of normal, straight-chain hydrocarbons.

The water-repellent and thermoplastic properties of CERATAN MT 9120es make them ideal for many applications.
CERATAN MT 9120, typical end uses include cereal, delicatessen, and household wrap, corrugated containers, candles, cheese and vegetable coatings, and hot melt adhesives.

Melting point: 58-62 °C ((ASTM D 87))
Boiling point: 322 °C
Density: 0.82 g/mL at 20 °C
refractive index: n20/D 1.45
FEMA 3216 | CERATAN MT 9120
Flash point: 113 °C
storage temp.: Store below +30°C.
solubility: Soluble in chloroform, ether, volatile oils, and most warm fixed oils; slightly soluble in ethanol; practically insoluble in acetone, ethanol (95%), and water.
form: extra-low viscosity oil
color: white
Odor: odorless
Odor Type: odorless
explosive limit: 0.6-6.5%(V)

CERATAN MT 9120 is a hydrocarbon mixture extracted from certain distillates of petroleum, shale oil or other bituminous mineral oils.
The main component is solid alkanes, which is odorless and tasteless, and is a white or light yellow translucent solid.
CERATAN MT 9120 has many uses, mainly used in the manufacture of matches, fiberboard, tarpaulin and so on.

CERATAN MT 9120 is manufactured by the distillation of crude petroleum or shale oil, followed by purification by acid treatment and filtration.
CERATAN MT 9120 with different properties may be produced by controlling the distillation and subsequent congealing conditions.
Synthetic CERATAN MT 9120, synthesized from carbon monoxide and hydrogen.

This type of CERATAN MT 9120 undergoes extensive refining processes to remove impurities and achieve a higher level of purity.
CERATAN MT 9120 has a higher melting point and is often used in applications requiring clarity and CERATAN MT 9120 is perhaps most famously used in the production of candles.
It's an affordable and versatile material that can be easily molded into different shapes and sizes.

CERATAN MT 9120 candles burn steadily and are often used for decorative and functional purposes.
CERATAN MT 9120 undergoes less extensive refining and may retain more of its natural color and scent.
It's commonly used in less sensitive applications, such as in industrial products like wax paper and packaging.

CERATAN MT 9120 has a lower melting point and is suitable for applications where quick melting is required, such as in making crayons or as a component in certain adhesives.
When CERATAN MT 9120 is burned, it can release combustion byproducts into the air, including small amounts of potentially harmful substances.
While the emissions from CERATAN MT 9120 candles are generally considered low and not likely to cause significant harm in well-ventilated areas, some people with sensitivities may prefer alternative candle options like soy or beeswax.

Some individuals may have sensitivity or allergies to certain additives or fragrances present in products containing CERATAN MT 9120.
Reading product labels and choosing fragrance-free options can help minimize potential reactions.

CERATAN MT 9120 is derived from petroleum, a non-renewable resource.
The extraction and refining processes of petroleum can have environmental impacts.
As a result, some consumers opt for natural and renewable alternatives like soy wax or beeswax.

Uses
CERATAN MT 9120 used in the production of candles, crayons, wax paper, rubber, wires, cables, plates, waterproof materials, electrical insulation, food packaging, precision casting, general telecommunications equipment, textiles, printing, metal rust prevention, and other chemicals required by various industrial sectors raw material.
CERATAN MT 9120 can also be used for oxidation to generate synthetic fatty acids.

CERATAN MT 9120 can also be made into detergents, emulsifiers, dispersants, plasticizers, greases, etc.
As a kind of latent heat storage material, CERATAN MT 9120 has the advantages of large latent heat of phase change, small volume change during solid-liquid phase change, good thermal stability, no supercooling phenomenon, and low price.

CERATAN MT 9120 is used in aviation, aerospace, microelectronics, etc.
CERATAN MT 9120 used various fields such as scientific and technological systems and house energy saving have been widely used.
CERATAN MT 9120 can be used as a phase changing material in a wide range of applications which include solar based water heaters, microcapsules and thermal energy devices.

In industrial applications, it is often useful to modify the crystal properties of the CERATAN MT 9120, typically by adding branching to the existing carbon backbone chain.
The modification is usually done with additives, such as EVA copolymers, microcrystalline wax, or forms of polyethylene.
The branched properties result in a modified CERATAN MT 9120 with a higher viscosity, smaller crystalline structure, and modified functional properties.

Pure CERATAN MT 9120 is rarely used for carving original models for casting metal and other materials in the lost wax process, as it is relatively brittle at room temperature and presents the risks of chipping and breakage when worked.
CERATAN MT 9120 is perhaps most famously used in the production of candles.

CERATAN MT 9120's an affordable and versatile material that can be easily molded into different shapes and sizes.
CERATAN MT 9120 candles burn steadily and are often used for decorative and functional purposes.
CERATAN MT 9120 is used for its moisture-repellent properties in packaging materials.

CERATAN MT 9120's used to coat certain fruits and vegetables to improve their appearance and extend their shelf life.
CERATAN MT 9120 is sometimes used in pharmaceutical formulations, including ointments and creams, to provide a base that holds active ingredients and allows controlled release.
CERATAN MT 9120 is used in art and craft projects.

CERATAN MT 9120 can be melted, colored, and molded into various shapes for artistic creations.
CERATAN MT 9120 is used as a moisture barrier in packaging to protect products from humidity and moisture damage.
CERATAN MT 9120 is used in art, crafts, and modeling for its malleability and ability to retain shapes.

Food-grade CERATAN MT 9120 is used to coat some fruits and vegetables to improve their appearance and extend their shelf life.
CERATAN MT 9120 is sometimes used in the textile industry for applications such as waterproofing fabrics.
CERATAN MT 9120 is used to coat electrical wires and cables to provide insulation and protection against moisture.

In woodworking, CERATAN MT 9120 can be used as a lubricant on saw blades and other cutting tools to reduce friction and heat buildup.
CERATAN MT 9120 can be used to preserve and protect certain items from corrosion or deterioration, such as metal tools and equipment.
CERATAN MT 9120 can be applied to various surfaces, such as wooden furniture or tools, to provide a protective layer and enhance their appearance.

One of the most common uses of CERATAN MT 9120 is for making candles.
CERATAN MT 9120s low melting point allows it to be easily melted and molded into candles of various shapes and sizes.
CERATAN MT 9120 candles burn cleanly and are widely used for decorative and functional purposes.

Safety
CERATAN MT 9120 is generally regarded as an essentially nontoxic and nonirritant material when used in topical ointments and as a coating agent for tablets and capsules.
However, granulomatous reactions (CERATAN MT 9120omas) may occur following injection of CERATAN MT 9120 into tissue for cosmetic purposes or to relieve pain.

Long-term inhalation of aerosolized CERATAN MT 9120 may lead to interstitial pulmonary disease.
Ingestion of a substantial amount of white soft CERATAN MT 9120 has led to intestinal obstruction in one instance.

Health Hazard
CERATAN MT 9120 exposures to paraffi n for a prolonged period cause several types of skin disorders, The adverse health effects to skin include chronic dermatitis, wax boils, folliculitis, comedones, papules, melanoderma, and hyperkeratoses.
Carcinoma of the scrotum in occupational workers began with a normal hyperkeratotic nevus-like lesion, which subsequently resulted in a squamous cell carcinoma.

Synonyms
EINECS 232-315-6
FEMA No. 3216
Hard CERATAN MT 9120
HartCERATAN MT 9120
Hydrocarbon wax
LS-2449
CERATAN MT 9120
CERATAN MT 9120 [JAN]
CERATAN MT 9120 [Waxes]
CERATAN MT 9120
CERATAN MT 9120 (petroleum)
CERATAN MT 9120 fume
CERATAN MT 9120es
CERATAN MT 9120es and Hydrocarbon waxes
CERATAN MT 9120, hard
Petroleum wax, crystalline
Poly(methylene)wax
Synthetic CERATAN MT 9120, Fischer-Tropsch
Synthetic wax
Wax extract
Wax, hydrocarbon
Wax, CERATAN MT 9120
Waxes, CERATAN MT 9120
Zeresin
CERESIN
Ceresin, also known as Ceresin wax or cerin, is a wax that comes from ozokerite through a purifying process.
Ceresin is a white-to-yellow waxy mixture of hydrocarbons obtained by purification of ozokerite.
Ceresin occurs as odorless, tasteless, amorphous (noncrystalline) brittle, waxy cakes or pastilles.


CAS Number: 8001-75-0
EC Number: 232-290-1
MDL Number: MFCD00146361
Chem/IUPAC Name: (2R,4R,4aS,6aS,6aS,6bR,8aR,12aR,14aS,14bS)-2-hydroxy-4,4a,6a,6b,8a,11,11,14a-octamethyl-2,4,5,6,6a,7,8,9,10,12,12a,13,14,14b-tetradecahydro-1H-picen-3-one
Molecular Formula: C30H50O2


Ceresin (also cerin, cerasin, cerosin, ceresin wax or ceresine) is a wax derived from ozokerite by a purifying process.
Ceresin is originally mineral wax, derived from coal and shale. Nowadays ceresin for cosmetics is synthesized from petroleum, exactly the blend of paraffin wax and microcrystalline wax.


Ceresin is a white, crystalline, odorless and tasteless solid.
Ceresin is a hard wax with a relatively high melting point and excellent oil binding capacity.
Ceresin is compatible with a wide variety of solvents, oils, fats, resins, petrolatum and other waxes.


Ceresin is a hydrocarbon wax produced by the purification of another hydrocarbon wax, ozokerite.
Ceresin, also known as Ceresin wax or cerin, is a wax that comes from ozokerite through a purifying process.
Ceresin is a white-to-yellow waxy mixture of hydrocarbons obtained by purification of ozokerite.


Ceresin occurs as odorless, tasteless, amorphous (noncrystalline) brittle, waxy cakes or pastilles.
Ceresin is a white or yellow wax derived from ozocerite, a naturally occurring fossil wax found near soft shale.
Ceresin is valued for its stability and high melting point and is often a substitute for beeswax.


Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.
Ceresin 1556 is a white wax.
Ceresin waxes are blends of linear and branched hydrocarbons that have a long history of use in industry.


Chemists should choose the properties that are critical to their formulation; melt point, penetration, or gel strength.
They are non-hazardous, non-toxic, and non-irritating for skin and eyes.
Ceresin is compatible with the chemistries of natural, mineral, and synthetic raw materials.


Ceresin is a waxy mixture of hydrocarbons obtained by purification of ozokerite, a naturally occurring mineral wax.
Ceresin serves as an alternative to beeswax in ointments.
Ceresin is a white-to-yellow waxy hydrocarbon mixture.


The native mineral fossil wax ozokerite, which is derived from coal and shale, is extracted and refined to create ceresin.
Another method of producing ceresin involves dissolving ozokerite in ligroin, treating it with activated clay, and then removing the high-boiling-point fraction.


Ceresin is a white or yellow wax that is obtained from a naturally-occuring mineral wax, ozokerite by purification.
The purifying process often consists of treating ozokerite with heat and sulfuric acid, although other methods have been used.
Ceresin’s commonly used as a substitute for beeswax or paraffin.


Ceresin’s also pretty common to find it listed as an ingredient in the beauty products you use daily.
Ceresin is a degradable, water-insoluble, solid wax that has been used as an antimicrobial agent in pharmaceutical preparations.
The high resistance of cresol to oxidation and hydrolysis makes it an effective preservative.


Ceresol can be decarboxylated to produce phenols, which have strong antiseptic properties.
It also has a high acid complexing ability that makes it useful for preventing the growth of microorganisms.
This property is due to the presence of fatty acids with long chains that are not easily degraded by enzymes in the stomach.


These products are mainly composed of carboxylic acids and alcohols.
Cresol also has an electrochemical impedance spectroscopy (EIS) profile that is similar to those of other organic compounds such as fatty acids or polycarboxylic acids


When cresol is heated, it reacts with lemongrass oil and produces macroscopic reaction products that are visible when viewed under a microscope.
Derived from clay, ceresin is a waxy ingredient used as a thickening agent in cosmetics.
Ceresin is a wax derived from ozokerite by a purifying process.



USES and APPLICATIONS of CERESIN:
Ceresin is substitute for beeswax; for making candles, wax figures; for waxed paper and cloth; in polishes, electrical insulators; waterproofing fabrics; for bottles for hydrofluoric acid; in dentistry for impression and inlay waxes and modeling compounds.
Ceresin is a thickener and a binder with noncomedogenic properties.


Ceresin regulates the viscosity, suspension properties, and overall stability of a skin care preparation.
Ceresin is used in protective creams as a beeswax and paraffin substitute.
This white-to-yellow waxy, Ceresin, mixture of hydrocarbons is obtained by the purification of ozokerite.


The purifying process of the ozokerite commonly comprises a treatment with heat and sulfuric acid, but other processes are also in use.
Ceresin will increase viscosity, assist in emulsion stability and reduce the brittleness of stick preparations and add hardness.
These properties encourage Ceresin's use in lipstick and lip care products to promote structure and stick strength.


Similar to ozokerite, Ceresin is mostly used in stick type products to keep them nice and solid.
Ceresine wax is used as a stiffening agent in creams and ointments, and as an emulsion stabilizer, opacity agent, viscosity control agent and thickener in pharmaceutical protective, topical and vaginal creams.


Applications of Ceresin include cosmetics, personal care, crayons, coatings, candles, industrial, pharmaceuticals, fruit and vegetable coatings, and inks.
Ceresin is also used in cosmetics and personal care products.
Ceresin is also used in drug coating applications for medicaments, for example, protective coatings, enteric-soluble coatings and sustained-release coatings.


Ceresin has been used in formulation of multivesicular emulsion topical delivery systems.
Even if you haven’t heard of the ingredient ceresin before, there’s a good chance you’ve used it.
Ceresin is an emulsifier used like a wax to help certain products, such as pomades and balms, to bind and maintain their consistencies.


Ceresin can be a suitable substitute for paraffin and beeswax, as it helps stabilize skincare products.
Ceresin also helps make products less brittle by adding strength and stability to stick cosmetics, such as lipstick.
As a thickening agent, Ceresin works to keep the liquid and oil parts of an emulsion from separating.


A mineral wax from coal or shale, or synthesized from petroleum, ceresin can be used as a replacement for beeswax and paraffin and performs similarly to both by stabilizing a product’s consistency.
Usually found in lip care (balms and lip masks), ceresin is also used in thicker, reparative skin creams and medical ointments.


Ceresin is also used in color cosmetics and haircare.
In other words, ceresin is a lot more common than you think, since it’s in everything from lipsticks to eyeliner, lip gloss, mascara, and skincare.
As Ceresin is in many personal care products, it is highly likely you have used it previously.


Ceresin is a derivative of clay and is used as a thickening agent and emulsifier in skincare products.
Ceresin is used as hardening wax for stick formulated cosmetics.
Ceresin is common in skincare and color cosmetics.


Because of its waxy texture, ceresin is mainly used to help a formula achieve a certain consistency.
Thanks to its waxy constitution, Ceresin can be used as barrier protection in skincare, creating an occlusive film to keep ingredients in the skin and lock out harmful pollutants.


Applications of Ceresin include cosmetics, personal care, crayons, coatings, candles, industrial, pharmaceuticals, fruit and vegetable coatings, and inks.
Ceresin acts as a viscosity-controlling and emulsion-stabilizing agent in cosmetics and personal care products.
As a wax, Ceresin aids in the hardening of lipid (oil)-based products like balm or pomade.


Additionally, Ceresin lessens brittleness and gives various stick cosmetics, like lipstick, strength and stability.
Because of its high melting point and stability, Ceresin frequently serves as a Beeswax substitute.
Ceresin is primarily used in personal care products like lipstick, lip/eyeliner, lip gloss, eye shadow, facial moisturizer, mascara, and anti-ageing serum.


Ceresin can be used at a concentration of up to 48% in eyeshadow.
Ceresin is primarily used to keep stick-type products nice and solid.
Ceresin is an emulsifier that aids in the emulsion of some products, like balms and pomades.


Ceresin is used as a stiffening agent in cosmetics.
Ceresin (Melting 63C) is used as a thickener in creams, lotions. Butter, lip balm, etc.
Ceresin is used for creams, lotions or other products that need to increase the viscosity (thickening)


-Uses of Ceresin include:
*An alternative to beeswax in ointments
*(Historic) laboratory-supply bottles for small amounts of hydrofluoric acid, which were made of ceresin; this was before polyethylene became commonplace.


-Pharmaceutical Applications of Ceresin:
Ceresin is used as a stiffening agent in creams and ointments, and as an emulsion stabilizer, opacifier, viscosity control agent, and thickener in pharmaceutical protective, topical, and vaginal creams. It is also used in cosmetics and personal care products.
Ceresin is often used as a substitute for ozokerite wax due to its similar properties, and also as a substitute for beeswax and paraffin wax.

Ceresin acts as a rheological modifier at low concentrations (2–3%) and has the ability to create very small crystallites, which crosslink and establish a network structure that does not allow flow in practical conditions.
Ceresin produces stable mixtures with oils and prevents bleeding or sweating of oil, and it produces a lighter cream that is less greasy.

Ceresin is also used for pharmaceutical coating applications of medicaments, for example, protective coatings, enteric coatings, and sustained-release coatings.
Ceresin has been used in the formulation of multivesicular emulsion topical delivery systems.


-Skin care:
With the formulation's context, Ceresin is significant.
In protective creams, Ceresin is typically used as a beeswax and paraffin replacement.
Ceresin enhances the stability, viscosity, and suspension qualities of skin care preparations


-Hair care:
Ceresin is suitable as an antistatic because of its long chain and saturated hydrocarbon structure, which prevent it from carrying any charge on the structure.
Additionally, Ceresin creates a layer that repels water on top of the hair shaft, conditioning hair and giving it a bouncy, shiny appearance



PRODUCTION METHODS OF CERESIN:
Ceresin is prepared by extraction and purification of the native mineral fossil wax ozokerite, which is derived from coal and shale.
Ozokerite is mined from deposits in various localities around the world.
It is found as irregular mineral veins or as a black mass in clay strata.

Mined ozokerite is heated to melt it, and any earth or rock is removed.
If necessary, it is heated to 115–1208℃ to remove any moisture and then treated with sulfuric acid or fuming sulfuric acid.
After neutralization, it is decolorized using activated charcoal or silica gel, and filtered.
If decolorizing is not sufficient, it is repeatedly treated with sulfuric acid and subjected to adsorption filtration to produce more refined ceresin.

Another method of producing ceresin involves dissolving ozokerite in ligroin, treating it with activated clay, and then removing the high-boiling-point fraction.
Ceresin is a complex combination of hydrocarbons produced by the purification of ozocerite with sulfuric acid and filtration through bone black to form waxy cakes.



MIXING METHOD OF CERESIN:
Mix in oil (oil-phase) and heat to about 75 degrees to dissolve into oil. Keep stirring while the product is cooling.



WHAT DOES CERESIN DO IN A FORMULATION?
*Antistatic
*Emulsion stabilising
*Viscosity controlling



SAFETY PROFILE OF CERESIN:
Ceresin has a score of 1 on the Environmental Working Group's (EWG’s) skin-deep scale, which indicates low potential for concerns like cancer, allergies and immunotoxicity, developmental and reproductive toxicity, and use restrictions.
The Cosmetic Ingredient Review (CIR) Expert Panel has evaluated the safety of ceresin and concluded that it is safe as a cosmetic ingredients in the present practices of concentration and use.



ALTERNATIVES OF CERESIN:
*PARAFFIN
*MONTAN CERA



FEATURES OF CERESIN:
Ceresin which functions as a stiffening agent while providing a high degree of thixotropy, and suspension of the effect pigments.
Ceresin which provides lubricity and enhances shine.



DECORATIVE COSMETICS OF CERESIN:
Ceresin is a sensory modifier with a natural derivative carrier.
Ceresin provides dry smoothness and a silky, lubricious skin feel.
Ceresin provides smoothness and is easy to apply.
Ceresin helps in pore masking.



FUNCTIONS OF CERESIN IN COSMETIC PRODUCTS:
*ANTISTATIC:
Ceresin reduces electrostatic charges (eg of the hair)

*BINDING:
Ceresin ensures the cohesion of powdered products

*EMULSION STABILISING:
Ceresin supports emulsion formation and improves product stability

*HAIR CONDITIONING:
Ceresin leaves the hair easy to comb, supple, soft and shiny and / or imparts volume

*OPACIFYING:
Ceresin reduces transparency and translucency by clouding the product

*VISCOSITY CONTROLLING:
Ceresin increases or decreases the viscosity of cosmetic products



HOW DOES CERESIN BENEFIT THE SKIN?
Ceresin is used as a thickening ingredient that keeps together the liquid and oil parts of an emulsion and prevents them from separating.
Since ceresin is an emollient, products lacking this ingredient could cause skin irritation.

Being a wax, Ceresin helps harden oil-based compounds like pomades or balms.
Ceresin has conditioning and moisturizing properties for the skin and acts as a moisture barrier, thus sealing water and active ingredients close to the skin.

Ceresin’s best for dry, rough and cracked skin that requires moisturizing.
Ceresin is also low allergenic, non-irritating and non-comedogenic.



HOW IS CERESIN USED IN BEAUTY PRODUCTS?
Ceresin-containing products should be used last in your skincare routine to seal serums and creams with active ingredients.
Ceresin helps to maintain the thickness and consistency of cosmetics such as lipstick, lip balm, mascara, and eyeliner.
Ceresin can also be used as a thickening agent in moisturizers and certain hair care products.

Without Ceresin, large categories of beauty products would be impossible to create due to its thickening, hardening and stabilizing properties.
The texture would be inconsistent without ceresin.
Lipsticks, pomades, balms, and thicker creams would be impossible.
Also, Ceresin would not be possible to create great moisturizers and do skin treatments such as slugging.



BENEFITS OF CERESIN FOR SKIN:
Ceresin is used to improve products, as it is viscosity-controlling and emulsion-stabilizing.
Ceresin's main purpose is as a thickening agent that keeps the oil and liquid parts of an emulsion from separating.
As a wax, Ceresin helps harden lipid (oil)-based solutions like pomades or balms.

Ceresin works well with oil-based creams, haircare, or balms and allows oil and liquid ingredients to emulsify without separation.
Ceresin wax is compatible with a wide variety of solvents, oils, fats, resins, petrolatum, and other waxes.



CERESIN, HAVE THIRSTY SKIN?
You might want to look for products that contain ceresin.
Ceresin’s best for non-sensitive, thicker, drier skin that can be rough and scaly.

Ceresin will help condition the skin and speed up the healing time of dry, cracked skin.
Ceresin works by protecting the skin barrier and sealing in water and other reparative ingredients.
Ceresin should only be avoided in sensitive skin types that develop a reaction.



SIDE EFFECTS OF CERESIN:
Ceresin isn’t an ingredient that will keep you up at night wondering what it might trigger in your skin.
Ceresin has low irritancy and low comedogenicity, meaning it won’t cause acne.



TYPE OF INGREDIENT OF CERESIN:
Texture enhancer


MAIN BENEFITS OF CERESIN:
A naturally occurring mineral wax, Ceresin's primarily used as a thickening agent in cosmetics.


WHO SHOULD USE IT:
Ceresin's a common binding ingredient and safe to use for most, as it's unlikely to irritate skin or cause breakouts.


HOW OFTEN TO USE CERESIN:
Ceresin is safe for daily use.


CERESIN WORKS WELL WITH:
Primarily a thickening ingredient, ceresin works well as part of formulas that need help with binding and consistency.
Ceresin's helpful in emulsions within a range of makeup and skincare products.


CERESIN DOESN'T USE WITH:
Ceresin isn’t a particularly reactive ingredient, so it works well with most routines.



SAFETY OF CERESIN:
Ceresin is nontoxic, nonhazardous, and safe for use in personal care and cosmetic ingredients in the present practices of concentration and use.
The Cosmetic Ingredient Review Expert Panel has concluded that ceresin does not result in dermal sensitization.
When formulations containing these ingredients were tested, they produced no skin irritation and the formulations were not phototoxic.
The FDA has established a cumulative estimated daily intake of ceresin of 0.00035 mg/kg body weight, and a cumulative dietary concentration in food of not more than 7 ppb.



STORAGE OF CERESIN:
Ceresin should be stored in well-closed containers in a cool, dry, well-ventilated place, away from extreme heat and strong oxidizing agents.



INCOMPATIBILITIES OF CERESIN:
Ceresin is incompatible with strong oxidizing agents.
Ceresin is compatible with most animal, vegetable, and mineral waxes, as well as mineral oil and petrolatum.



PHYSICAL and CHEMICAL PROPERTIES of CERESIN:
CAS Number: 8001-75-0
Chem/IUPAC Name: (2R,4R,4aS,6aS,6aS,6bR,8aR,12aR,14aS,14bS)-2-hydroxy-4,4a,6a,6b,8a,11,11,14a-octamethyl-2,4,5,6,6a,7,8,9,10,12,12a,13,14,14b-tetradecahydro-1H-picen-3-one
EINECS/ELINCS No: 232-290-1
Melting Point: 53-79°C
Solubility: Insoluble in water
Soluble in benzene, chloroform, naphtha
Melting point: 61-78°
Density 0.91-0.92
Flash point: 113 °C
solubility: Soluble in benzene, chloroform, naphtha, hot oils, petroleum ether,
30 parts absolute ethanol, turpentine, carbon disulfide, and most organic solvents.
Insoluble in water.
form: Solid
color: White waxy
Odor: Odorless
Water Solubility: Insoluble in water
CAS DataBase Reference 8001-75-0
Indirect Additives used in Food Contact Substances: CERESIN WAX (OZOCERITE)
EWG's Food Scores: 1
FDA UNII: Q1LS2UJO3A
EPA Substance Registry System: Ceresin (8001-75-0)
Molecular Formula: C30H50O2
Boiling Point: 343°C
Melting Point: 61-78°C
Flash Point: 215.876°C
Density: 0.91-0.92 g/cm3
Solubility: Soluble in Benzene, Chloroform,
Naphtha, Hot Oils, Petroleum Ether,
30 Parts Absolute Ethanol, Turpentine,
Carbon Disulfide, and Most Organic Solvents; Insoluble in Water
Appearance: White to Yellow Waxy Cakes or Pastilles
Storage: Store at RT
Assay: 99.9%min
Refractive Index: 1.514



FIRST AID MEASURES of CERESIN:
-Description of first-aid measures:
*If inhaled:
After inhalation:
Fresh air.
Immediately call in physician.
In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
Give water to drink (two glasses at most).
Seek medical advice immediately.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CERESIN:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Observe possible material restrictions.
Take up carefully with liquid-absorbent material.
Dispose of properly.
Clean up affected area.



FIRE FIGHTING MEASURES of CERESIN:
-Extinguishing media:
*Suitable extinguishing media:
Use extinguishing measures that are appropriate to local circumstances and the surrounding environment.
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Suppress (knock down) gases/vapors/mists with a water spray jet.
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CERESIN:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
required
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CERESIN:
-Precautions for safe handling:
*Hygiene measures:
Immediately change contaminated clothing.
Apply preventive skin protection.
Wash hands and face after working with substance.
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Keep in a well-ventilated place.
Keep locked up or in an area accessible only to qualified or authorized persons.



STABILITY and REACTIVITY of CERESIN:
-Reactivity:
No data available
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
no information available



SYNONYMS:
Ceresin
8001-75-0
232-290-1
Ceresin wax
Ozocerite wax
Ozokerite wax
White ceresin wax
White ozokerite wax
CERESIN (II)
CERESIN WAX (OZOCERITE)
CIRINE WAX
Ceresine wax
DTXSID1093670
EARTH WAX
EINECS 232-290-1
FOSSIL WAX
Q1LS2UJO3A
UNII-Q1LS2UJO3A
WHITE CERESIN WAX (II)
Waxes, ceresin
Waxes, ozocerite
Earth Wax
Mineral Wax
Ozokerite
Ceresin
CERA MICROCRISTALLINA
Ceresine wax
OZOKERITE WAX
CERESIN WAX YELLOW
Microcrytalline Wax
CERIN
Cerosin
Earth wax
ceresin(e)
Ceresin
Cera mineralis alba
Ceresine
Ceresin wax
Cerin
Cerosin
Cirashine CS
Earth wax
Koster Keunen Ceresine
Mineral wax
purified ozokerite
Ross Ceresine Wax
white ceresin wax
white ozokerite wax



CERESIN
Nom INCI : CERIA/SILICA Ses fonctions (INCI) Absorbant UV : Protège le produit cosmétique contre les effets de la lumière UV
CERIA/SILICA
CERIUM OXIDE N° CAS : 1306-38-3 Nom INCI : CERIUM OXIDE Nom chimique : Ceric oxide N° EINECS/ELINCS : 215-150-4 Opacifiant : Réduit la transparence ou la translucidité des cosmétiques
CERIUM OXIDE
CETALKONIUM CHLORIDE, N° CAS : 122-18-9, Nom INCI : CETALKONIUM CHLORIDE, Nom chimique : Benzenemethanaminium, N-hexadecyl-N,N-dimethyl, chloride, N° EINECS/ELINCS : 204-526-3. Antimicrobien : Aide à ralentir la croissance de micro-organismes sur la peau et s'oppose au développement des microbes, Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface, Conservateur : Inhibe le développement des micro-organismes dans les produits cosmétiques.
CETAC (CETRIMONIUM CHLORIDE)
CETAC (Cetrimonium chloride) is a quaternary ammonium compound used as a preservative.
CETAC (Cetrimonium chloride) is also called cetyltrimethylammonium chloride
CETAC (Cetrimonium chloride) is a topical antiseptic and surfactant.


CAS NUMBER: 112-02-7

EC NUMBER: 203-928-6

MOLECULAR FORMULA: C19H42N.Cl

MOLECULAR WEIGHT: 320.0 g/mol

IUPAC NAME: hexadecyl(trimethyl)azanium;chloride


CETAC (Cetrimonium chloride) appears as colorless to pale yellow liquid
CETAC (Cetrimonium chloride) has an odor of rubbing alcohol.

CETAC (Cetrimonium chloride) floats or sinks in water.
CETAC (Cetrimonium chloride) is the organic chloride salt of cetyltrimethylammonium.

CETAC (Cetrimonium chloride) has a role as a surfactant.
CETAC (Cetrimonium chloride) is a quaternary ammonium salt and an organic chloride salt.

CETAC (Cetrimonium chloride) contains a cetyltrimethylammonium ion.
CETAC (Cetrimonium chloride) compound whose salts and derivatives are used primarily as topical antiseptics.

CETAC (Cetrimonium chloride) is a quaternary ammonium salt
In cosmetics and personal care products, CETAC (Cetrimonium chloride) is used in the formulation of hair conditioners, hair dyes and colors, other hair care products, and in some skin care products.

Long-chain quaternary ammonium surfactants, such as CETAC (Cetrimonium chloride), are generally combined with long-chain fatty alcohols, such as stearyl alcohols, in formulations of hair conditioners and shampoos.
The cationic surfactant concentration in conditioners is generally of the order of 1–2% and the alcohol concentrations are usually equal to or greater than those of the cationic surfactants.
The ternary system, surfactant/fatty alcohol/water, leads to a lamellar structure forming a percolated network giving rise to a gel.

CETAC (Cetrimonium chloride) is a quaternary ammonium used in cosmetics for its antistatic properties.
CETAC (Cetrimonium chloride) allows water and oil to be dispersed, and thus to promote soft and pleasant consistencies.

CETAC (Cetrimonium chloride) is often used in hair care instead of (or sometimes with) silicones.
CETAC (Cetrimonium chloride) can also be used as a preservative.

CETAC (Cetrimonium chloride) is a quaternary cationic conditioner.
CETAC (Cetrimonium chloride) has anti-static, anti-frizz & detangling properties.

CETAC (Cetrimonium chloride) can be used with non-ionic and cationic surfactants and most polar solvents.
CETAC (Cetrimonium chloride) is an ingredient for multiple hair care applications

Why is CETAC (Cetrimonium chloride) used in cosmetics and personal care products?
All three ingredients prevent or inhibit the buildup of static electricity.
CETAC (Cetrimonium chloride) also helps to cleanse the skin or to prevent odor by destroying or inhibiting the growth of microorganisms and by helping water to mix with oil and dirt so that they can be rinsed away.
CETAC (Cetrimonium chloride) also helps to form emulsions by reducing the surface tension of the substances to be emulsified and help to distribute or to suspend an insoluble solid in a liquid.

CETAC (Cetrimonium chloride) is used mainly in hair care products such as shampoos but is also used in some cleansing body products as well.
CETAC (Cetrimonium chloride) chloride helps to inhibit static electricity that is built up between the hair strands, causing flyaways and frizz.
CETAC (Cetrimonium chloride) also acts as a mild preservative.

CETAC (Cetrimonium chloride) is a quaternary ammonium salt, Cetrimonium Chlorides concentration in cosmetics is highly controlled by state regulations.
CETAC (Cetrimonium chloride) is very similar to another conditioning ingredient called behentrimonium chloride.

CETAC (Cetrimonium chloride) is an anti-static ingredient that helps condition the hair
Not only conditioning CETAC (Cetrimonium chloride) also acts as a preservative by preventing the growth of bacteria in liquid solutions, and therefore help products to last longer.

CETAC (Cetrimonium chloride) is used in the following products:
-coating products
-adhesives and sealants
-fillers
-putties
-plasters
-modelling clay
-polymers
-washing & cleaning products

CETAC (Cetrimonium chloride) is used in building & construction work.
CETAC (Cetrimonium chloride) formulation or re-packing

CETAC (Cetrimonium chloride) is used in cosmetics and personal care products
CETAC (Cetrimonium chloride) is also used in polymers and textile treatment products

CETAC (Cetrimonium chloride) uses at industrial sites
CETAC (Cetrimonium chloride) is used in textile treatment products and dyes
CETAC (Cetrimonium chloride) is used in building & construction work and offshore mining.

CETAC (Cetrimonium chloride) is used for the manufacture of textile, leather or fur and mineral products (e.g. plasters, cement).
CETAC (Cetrimonium chloride), is a topical antiseptic.
CETAC (Cetrimonium chloride) is also used in hair conditioners and shampoos, as a conditioning agent

CETAC (Cetrimonium chloride) is also a surfactant: partly water-soluble and partly oil-soluble
CETAC (Cetrimonium chloride) allows oil and water to become dispersed and give products a good consistency and a gentle cleansing foam

CETAC (Cetrimonium chloride) is a cationic quaternary ammonium salt that is used as a light hair conditioning agent.
CETAC (Cetrimonium chloride) use in conditioners and cream rinses improves both wet and dry combing and reduces static electricity.

CETAC (Cetrimonium chloride) is used as a detangler in hair care products.
CETAC (Cetrimonium chloride) inhibits the growth of micro-organisms and prolongs the shelf life of formulations.


PHYSICAL PROPERTIES:

-Molecular Weight: 320.0 g/mol

-Exact Mass: 319.3005780 g/mol

-Monoisotopic Mass: 319.3005780 g/mol

-Topological Polar Surface Area: 0Ų

-Physical Description: Clear to pale yellow liquid

-Boiling Point: 180 °F

-Flash Point: 69 °F

-Water solubility: 440 mg/l

-Density: 0.9

-Autoignition Temperature: 750 °F

-Chemical Classes: Nitrogen Compounds -> Quaternary Amines


CETAC (Cetrimonium chloride) acts as an antistatic agent: Cetrimonium Chloride neutralize the electrons generated through static electricity.
CETAC (Cetrimonium chloride) helps in the easy combing of wet hair and prevents the formation of knots in the hair.
CETAC (Cetrimonium chloride) makes hair more manageable.

As Cetrimonium Chloride is cationic, CETAC (Cetrimonium chloride) is used primarily in conditioning products rather than in shampoos.
CETAC (Cetrimonium chloride) also finds use as a topical antiseptic and a preservative due to Cetrimonium Chlorides ability to inhibit the growth of microorganisms.


CHEMICAL PROPERTIES:

-Hydrogen Bond Donor Count: 0

-Hydrogen Bond Acceptor Count: 1

-Rotatable Bond Count: 15

-Heavy Atom Count: 21

-Formal Charge: 0

-Complexity: 181

-Isotope Atom Count: 0

-Defined Atom Stereocenter Count: 0

-Undefined Atom Stereocenter Count: 0

-Defined Bond Stereocenter Count: 0

-Undefined Bond Stereocenter Count: 0

-Covalently-Bonded Unit Count: 2

-Compound Is Canonicalized: Yes


CETAC (Cetrimonium chloride) is used as a surfactant (for cleansing and emulsifying) and a suspending agent.
CETAC (Cetrimonium chloride) is a clear water-like liquid and is mainly used in the hair care products to prevent the build-up of static charge over the hair shaft.

CETAC (Cetrimonium chloride) mainly used to prevent static and build-up in the hair.
CETAC (Cetrimonium chloride) can also cleanse the skin/hair and eliminate odor by preventing the growth of microorganisms, and by enabling water to mix with dirt and rinse it away.

CETAC (Cetrimonium chloride) is used as an emulsifier that helps in mixing water and dirt and is useful in getting rid of accumulated dirt, grime.
CETAC (Cetrimonium chloride) prohibits the multiplication of microorganisms in the product formulations

In addition, by reducing the surface tension of other ingredients and working to distribute and suspend insoluble solids in liquid, Cetrimonium Chloride helps form emulsions.
CETAC (Cetrimonium chloride) is mainly used in hair products such as hair dye, shampoo/conditioner, styling gel, mousse, detangler, dandruff treatment and relaxer.

CETAC (Cetrimonium chloride) is a mono-alkyl quaternary.
CETAC (Cetrimonium chloride), C-16 based conditioning active provides a good balance of hair conditioning with ease of use in formulation.

CETAC (Cetrimonium chloride) should be used where light to moderate conditioning and detangling performance is desired.
CETAC (Cetrimonium chloride) is soluble in isopropanol, soluble in water, generates a lot of foam when shaken, and has good compatibility with cationic, nonionic and amphoteric surfactants.

CETAC (Cetrimonium chloride) has excellent penetration, softening, emulsification, antistatic, biodegradability and bactericidal properties.
CETAC (Cetrimonium chloride) has good chemical stability, heat resistance, light resistance, pressure resistance, strong acid and alkali resistance.

CETAC (Cetrimonium chloride) is an excellent conditioner with anti-static
CETAC (Cetrimonium chloride) has anti-frizz & detangling properties

CETAC (Cetrimonium chloride) has emulsifying properties able to mix oil and water, especially effective for softening coarse hair, antimicrobial properties.
CETAC (Cetrimonium chloride) is used in hair conditioners, hair shampoos, hair rinses, anti-frizz products.

CETAC (Cetrimonium chloride), or cetyltrimethylammonium chloride (CTAC), is commonly used in hair conditioners and shampoos, as a conditioning agent.
CETAC (Cetrimonium chloride) is a cationic quaternary ammonium salt that is used as a light hair conditioning agent.

CETAC (Cetrimonium chloride) or CTAC is an emulsifier
CETAC (Cetrimonium chloride) is a surfactant and quaternary ammonium salt

CETAC (Cetrimonium chloride) is used in hair conditioners, shampoo, dyes, and other personal hair care products.
CETAC (Cetrimonium chloride) is a conditioning agent

CETAC (Cetrimonium chloride) is a yellowish liquid ingredient that is widely used in cosmetic and personal care products.
CETAC (Cetrimonium chloride) can also appear in the form of a solid or a paste.

CETAC (Cetrimonium chloride) offers benefits of being a preservative or an antiseptic.
CETAC (Cetrimonium chloride) is also commonly used to reduce static in the hair.

CETAC (Cetrimonium chloride) works well with almost all the other ingredients
CETAC (Cetrimonium chloride) can most commonly be found in products like shampoos and conditioners.

CETAC (Cetrimonium chloride) is a water-soluble antistatic agent, surfactant and has some antimicrobial properties.
CETAC (Cetrimonium chloride)'s an anti-static, conditioning ingredient that helps keep hair looking and feeling smooth.

CETAC (Cetrimonium chloride) also acts as a preservative by preventing the growth of bacteria in liquid solutions, so products last longer.
CETAC (Cetrimonium chloride)'s partly water-soluble and partly oil-soluble, so oil and water become dispersed and give products a good consistency and a gentle cleansing foam.

CETAC (Cetrimonium chloride) is a quaternary ammonium salt.
CETAC (Cetrimonium chloride) concentration in cosmetics is highly controlled by state regulations.

CETAC (Cetrimonium chloride) is a wonderful ingredient imparting its benefits to both hair and skin.
This ingredient can mainly be spotted in hair care products such as hair sprays and shampoos.

*Hair care: CETAC (Cetrimonium chloride) is an anti-static ingredient that greatly reduces frizz and flyaways.
CETAC (Cetrimonium chloride) also smoothens the shafts out, adding shine to them

*Skin care: CETAC (Cetrimonium chloride) acts as an antiseptic and prevents the growth of microorganisms on the surface of the skin.
CETAC (Cetrimonium chloride) also helps the water mix well with oil so that the dirt and dust can be washed away thoroughly

CETAC (Cetrimonium chloride) can be natural or synthetic depending on the way that it is made.
Naturally, CETAC (Cetrimonium chloride) is derived from vegetable oils.
CETAC (Cetrimonium chloride) is basically a quaternary ammonium compound that acts well as a preservative.
CETAC (Cetrimonium chloride) can appear in the form of a yellowish liquid or a waxy solid.

CETAC (Cetrimonium chloride) is a quaternary ammonium used in cosmetics for its antistatic properties.
As CETAC (Cetrimonium chloride) is a cationic surfactant, it disperses water and oil, and thus promotes soft and pleasant consistencies.

This ingredient is often used in hair care instead of (or sometimes with) silicones.
CETAC (Cetrimonium chloride) can also be used as a preservative.

CETAC (Cetrimonium chloride)'s functions:
*Antimicrobial: CETAC (Cetrimonium chloride) helps slow the growth of microorganisms on the skin and opposes the development of microbes
*Antistatic: CETAC (Cetrimonium chloride) reduces static electricity by neutralizing the electrical charge on a surface
*Emulsifying agent: CETAC (Cetrimonium chloride) promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Preservative: CETAC (Cetrimonium chloride) inhibits the development of micro-organisms in cosmetic products.

CETAC (Cetrimonium chloride) is a a light hair conditioning agent.
CETAC (Cetrimonium chloride)'s use in conditioners and cream rinses to improve both wet and dry combing and reduces static electricity

Typical Uses of CETAC (Cetrimonium chloride):
-Hair Conditioner
-Skin Conditioning Creams
-Shampoo
-Antiseptic formulations
-Part of a Preservative System

CETAC (Cetrimonium chloride) is a a light hair conditioning agent.
CETAC (Cetrimonium chloride) is used as a topical antiseptic and a preservative due to its ability to inhibit the growth of microorganisms.
CETAC (Cetrimonium chloride) is used as a surfactant (for cleansing and emulsifying) and a suspending agent.

CETAC (Cetrimonium chloride) is a quaternary ammonium salt, its concentration in cosmetics is highly controlled by state regulations.
CETAC (Cetrimonium chloride) is a quaternary ammonium salt that serves multiple functions in personal care products, including working as a surfactant/emulsifier that cleanses skin by mixing water with dirt and oil to be rinsed away.

CETAC (Cetrimonium chloride) is most popular in hair care (including hair dyes) where it provides conditioning properties as well as anti-frizz, anti-static, and detangling benefits.
CETAC (Cetrimonium chloride) may be plant- or animal-derived or synthetic.

CETAC (Cetrimonium chloride) can also be used as part of cosmetic preservative blends and may be used to inhibit unwanted odors from forming within a formula.
CETAC (Cetrimonium chloride) is a colorless to pale yellow liquid in raw material form


SYNONYMS:

112-02-7
Hexadecyltrimethylammonium chloride
Cetyltrimethylammonium chloride
N,N,N-trimethylhexadecan-1-aminium chloride
Cetrimonium chloride
N-Hexadecyltrimethylammonium chloride
Cetyl trimethyl ammonium chloride
Dehyquart A
TRIMETHYLHEXADECYLAMMONIUM CHLORIDE
Genamin CTAC
Aliquat 6
Trimethylcetylammonium chloride
Arquad 16-50
Hexadecyl trimethyl ammonium chloride
CETAC
CTAC
HTAC
Palmityltrimethylammonium chloride
Adogen 444
Surfroyal CTAC
Arquad 16-29
Dehyquart A-CA
Morpan CHA
Quartamin 60W
Ammonyx Cetac 30
Arquad 16
Intexsan CTC 29
Intexsan CTC 50
1-Hexadecanaminium, N,N,N-trimethyl-, chloride
Barquat CT 29
Intexan CTC 29
Variquat E 228
Carsoquat CT 429
Cation PB 40
HDTMA-Cl
Catinal CTC 70ET
Dodigen 1383
Lebon TM 16
Lebon TM 60
N,N,N-Trimethyl-1-hexadecanaminium chloride
Caswell No. 167A
Pionin B 611
Nissan Cation PB 40
Arquad 16-25LO
Swanol CA 2350
Arquad 16-25W
Arquad 16-29W
Arquad 16-26
Arquad 16/28
Quatramine C 16/29
hexadecyl(trimethyl)azanium;chloride
hexadecyl(trimethyl)ammonium chloride
cetyltrimethyl ammonium chloride
FSM 28
CHEBI:53581
HSDB 5553
PB 40
EINECS 203-928-6
UNII-UC9PE95IBP
UC9PE95IBP
EPA Pesticide Chemical Code 069133
C19H42N.Cl
cetyl(trimethyl)ammonium chloride
DTXSID6026901
EINECS 268-077-5
Trimethyl-1-hexadecanaminium chloride
68002-63-1
Ammonium, hexadecyltrimethyl-, chloride
EC 203-928-6
MFCD00011773
C19H42ClN
Ammonyx Cetac
Catiogen TMP
Catiogen TMR
Surfaktivo (TN)
hexadecyl(trimethyl)azanium chloride
CTACL
Cationic 1631
Ammonyx CETAC 25
Carsoquat CT 425
Cetac 30
Aliquat 1529
Arquad 16-25
Cetrimonium chloride (BAN)
SCHEMBL24536
C 16TAC
NIKKOL CA-2350
ARQUAD PC 16-29W
cetyl trimethylammonium chloride
cetyltrimethyl-ammonium chloride
DTXCID806901
C19-H42-N.Cl
CHEMBL1895807
hexadecyltrimethylazanium chloride
CETRIMONIUM CHLORIDE [II]
BP 40
CETRIMONIUM CHLORIDE
hexadecyl trimethylammonium chloride
hexadecyltrimethyl ammonium chloride
AMY33367
trimethyl hexadecyl ammonium chloride
1631CL
AKOS015899168
AKOS015960532
(1-Hexadecyl)trimethylammonium chloride
CA 2350
CS-W012007
FS-4302
NCGC00164283-02
NCGC00260104-01
CAS-112-02-7
Hexadecyltrimethylammonium chloride (6CI)
LS-74824
Ammonium hexadecyltrimethyl-chloride (8CI)
N,N,N-trimethylhexadecan-1-aminiumchloride
FT-0631635
H0082
n-hexadecyl-n,n,n-trimethylammonium chloride
(1-Hexadecyl)trimethylammonium chloride, 96%
D07672
1-Hexadecanaminium NNN-trimethyl-chloride (9CI)
TRIMETHYLHEXADECYLAMMONIUM CHLORIDE [HSDB]
A802470
cloruro de 1-Hexadecanaminium, N, N, N-trimetil-
EN300-18532488
Q1061007
tetrahydro-4-methyl-2-(2-methyl-1-propen-1-yl)-
W-108660
1-Hexadecanaminio, N,N, N-trimetil-, cloruro (1:1)
1-Hexadecanaminium, N,N,N-trimethyl-, chloride (1:1)
HEXADECAN-1-AMINIUM, N,N,N-TRIMETHYL-, CHLORIDE
1-HEXADECANAMINIUM, N,N,N-TRIMETHYL-, CHLORIDE
1HEXADECANAMINIUM, N,N,NTRIMETHYL, CHLORIDE
CETRIMONIUM CHLORIDE
CETYL TRIMETHYL AMMONIUM CHLORIDE
CHLORIDE 1-HEXADECANAMINIUM, N,N,N-TRIMETHYL-
HEXADECYLTRIMETHYLAMMONIUM CHLORIDE
N,N,N-TRIMETHYL- CHLORIDE 1-HEXADECANAMINIUM
N,N,N-TRIMETHYL-1-HEXADECANAMINIUM CHLORIDE


CETALKONIUM CHLORIDE
Ceteareth; C16-18 alcohols, ethoxylated (12 mol EO average molar ratio); C16-18 alcohols, ethoxylated (25 mol EO average molar ratio) cas no: 68439-49-6
Cetearath 25
alcohols C16-18 ethoxylated (peg-25) brij CS25 C16-18 alcohols, ethoxylated (25 mol EO average molar ratio) hetoxol CS-25 peg-25 cetyl/stearyl ether polyethylene glycol (25) cetyl/stearyl ether polyoxyethylene (25) cetyl/stearyl alcohol ether polyoxyethylene (25) cetyl/stearyl ether CAS Number‎: ‎68439-49-6
Ceteareth 11
alcohols C16-18 ethoxylated (peg-11) C16-18 alcohols, ethoxylated (11 mol EO average molar ratio) hetoxol CS-11 peg-11 cetyl/stearyl ether polyethylene glycol (11) cetyl/stearyl ether polyoxyethylene (11) cetyl/stearyl alcohol ether polyoxyethylene (11) cetyl/stearyl ether CAS Number: 68439-49-6
Ceteareth 12,25
CETEARETH-10, N° CAS : 68439-49-6, Nom INCI : CETEARETH-10, Noms français : Alcools (C16-C18), éthoxylés; Noms anglais :(C16-C18) ALKYL ALCOHOL ETHOXYLATE; (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT; (C16-C18)ALKYL ALCOHOL ETHOXYLATE; ALCOHOLS, C16-18, ETHOXYLATED; ALIPHATIC (C16-C18)ALCOHOL, ETHOXYLATED; Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Alcohols, C16-18, ethoxylated (10EO) (68439-49-6)
CETEARETH 2-12-20-25-30-50-80
SYNONYMS Macrogol (25)-cetostearyl ether, Polyethylene glycol 1100 mono(hexadecyl/octadecyl) ether CAS NO:68439-49-6
CETEARETH 25
Ceteareth 25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth 25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
Ceteareth 25 is a non-ionic emulsifier obtained by addition of natural saturated fatty alcohol and ethylene oxide.

CAS Number: 68439-49-6
Molecular Formula: C18H38O
Molecular Weight: 0
EINECS Number: 939-518-5

Ceteareth 25 is an oil-in-water (O/W) emulsifier.
When used with Ceteareth 25, it forms a complementary emulsifier pair.
This emulsifier has a small amount of emulsifier and has strong emulsification energy.

The prepared emulsion Ceteareth 25 High stability and bright appearance.
Ceteareth 25 can tolerate a certain degree of inorganic salts and extreme pH conditions.
In addition to the production of general creams and lotions, it is also suitable for the production of emulsion products containing fruit acids and strong alkaline emulsion products such as hair dye cream and depilatory cream.

Ceteareth 25 is a very versatile emulsifier.
Ceteareth 25 is an oil-in-water emulsifier that is used for the production of ointments, creams, liquid emulsions, gels and other cosmetic formulations.
Ceteareth 25 is supplied in the form of free-flowing, non-dusting micro-granules, and is an efficient protective colloid that can increase the stability of dispersed systems.

This research grade product is intended for use in R&D only.
Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth 25 is available as a white, waxy solid.

Ceteareth 25 is used as an emulsifier in oil/water emulsions.
Ceteareth 25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Compared to Ceteareth-20, Ceteareth 25 has a bit more gel-forming and thickening properties.

Ceteareth 25 is chemical formula is C18H38O.
Ceteareth 25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth 25 may be plant- or animal-derived or made synthetically (Paula’s Choice Skincare uses the synthetic and plant-derived types).

Ceteareth 25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
Ceteareth 25 liquids to waxy solids. In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Ceteareth 25 is a nonionic emulsifier that is the 25-mole ethoxylate of a blend of cetyl and stearyl alcohols.

Ceteareth 25 is a free-flowing, non-dusting microbead with an HLB of 15-17.
Ceteareth 25 dissolves in water and alcohol to form a colloid or a clear solution.
Ceteareth 25 is soluble in vegetable and mineral fats and oils, as well as with fatty alcohols, fatty acids, mono- and di- stearates, and with polyethylene glycols.

Ceteareth 25 can be used as an emulsifier for the manufacture of oil-in-water emulsion preparations.
Ceteareth 25 can be used with a wide range of polarities, preferably in combination with Ceteareth-6 (and) Stearyl Alcohol to produce creams or lotions.
Ceteareth 25 is typically used at 1-5%.

Ceteareth 25 is a surfactant made from cetearyl alcohol, which can be derived from animals (not used by ecostore), synthetically produced, or made from plants oils such as coconut and palm.
The '25' in the name refers to the number of ethylene oxide units in the molecule.
Ceteareth 25 effectively removes impurities and dirt from the surface of the skin and hair.

The particles of this surfactant surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth 25 is also an effective foaming agent.
Ceteareth 25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants.

As emulsifier: Due to its strong hydrophilic nature, Ceteareth 25 is perfect for creating oil-in-water emulsions. Due to its very good emulsifying properties, it can be used for the preparation of emulsions at room temperature
Ceteareth 25 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances.
Ceteareth 25 has a strong softening, moisturizing and conditioning effect.

Ceteareth 25 reduces the itching and peeling of skin.
Ceteareth 25 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water.
Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).

HLB value 16 (gives oil-in-water emulsions). Universal emulsifier to make o/w emulsions.
Compatible with all kinds of oils & active ingredients.
Very effective protective colloid that stabilizes all kinds of dispersed systems.

Ceteareth 25 is universal emulsifier to make o/w emulsions.
Ceteareth 25 is compatible with all kinds of oils & active ingredients.
Ceteareth 25 is very effective protective colloid that stabilizes all kinds of dispersed systems.

Ceteareth 25 can be combined with other emulsifiers.
Ceteareth 25 has optimal use level with gel-forming thickeners.
Compared to ceteareth-20, Ceteareth 25 has a bit more gel-forming and thickening properties.

Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth 25 is available as a white, waxy solid.
Ceteareth 25 is used as an emulsifier in oil/water emulsions.

Ceteareth 25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Compared to Ceteareth 25,it has a bit more gel-forming and thickening properties.
Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).

Ceteareth 25 is available as a white, waxy solid.
Ceteareth 25 is used as an emulsifier in oil/water emulsions.
Ceteareth 25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.

Compared to Ceteareth 25,it has a bit more gel-forming and thickening properties.
Ceteareth 25 is a strong softening, moisturising and conditioning effect thanks to the properties typical for emollients.
Non-ionic polyoxyethylene ester of higher saturated fatty alcohols.

Ceteareth 25 is a white, waxy, odorless solid with a melting point of 45.5 - 47.5 & deg; C.
Ceteareth 25 dissolves in water and alcohol and forms a sticky solution.
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioners.

Ceteareth 25’s also used in cosmetics and personal care products such as lotions and creams.
There is no distinct odour.
Great for sprayable lotions, foundations & hair conditioners.

Compatible with all kinds of oils and active ingredients.
Effective protective colloid (a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance) that stabilizes all kinds of dispersed systems.
Ceteareth 25 is a cosmetic gradeoil-in-water emulsifier, which is used for the production of ointments, creams, liquid emulsions, gels and other cosmetic formulations.

Ceteareth 25 is soluble in vegetable and mineral fats and oils.
The warm emulsifiers can be mixed with mineral, vegetable, and synthetic fats and oils, as well as with fatty alcohols, fatty acids, mono- and di-stearates, and with polyethylene glycols.
Creams and lotions can be formulated easily.

If Ceteareth 25 is used together with cetyl or stearyl alcohol or both, homogeneous ointment and cream bases are obtained that can absorb as much as 90% water.
Ceteareth 25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
This ingredient is one of several ceteareths deemed safe as used in cosmetics.

Concentration ranges from 1.3–10% depending on the type of formula and desired aesthetics; lower amounts may also be used, especially if ceteareth-25 is part of a blend.
Ceteareth 25 is a non-ionic surfactant.
The commercial product is a white solid with a waxy consistency.

The solidification point of the product is about 40°C.
Ceteareth 25 is a derivative based on renewable vegetable raw materials and is used mainly in cosmetic and detergent applications.
Ceteareth 25 is a very efficient protective colloid and can increase the stability of dispersed systems.

Ceteareth 25 forms gel-like, brushable hydrates with water
Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth 25 is available as a white, waxy solid.

Ceteareth 25 is used as an emulsifier in oil/water emulsions.
Ceteareth 25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Compared to Ceteareth-20, Ceteareth-25 has a bit more gel-forming and thickening properties.

Ceteareth 25 is chemical formula is C18H38O.
Ceteareth 25 effectively removes impurities and dirt from the surface of the skin and hair.
The particles of this surfactant surround the contaminants, which detach from the cleaned surface and are then washed away.

In cosmetics, Ceteareth 25 is an effective foaming agent.
In addition, Ceteareth 25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants.
Another role of this surfactant is to modify the rheological properties in formulations containing anionic surfactants by creating socalled mixed micelles.

The modification of rheological properties is the change in the viscosity of the Ceteareth 25.
Achieving the desired value of the viscosity of the cosmetic formulation allows for obtaining the right consistency, which will ensure good performance characteristics and stability of the product.
Changing the rheological properties of the cosmetic improves its consistency.

As a solubilizer, Ceteareth 25 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances, which constitute an integral part of every cosmetic.
Ceteareth 25 is a compound that belongs to the family of ceteareth compounds, which are emulsifying agents and surfactants.
Ceteareth 25s are commonly used in the formulation of cosmetic and personal care products, as well as pharmaceuticals and some industrial applications.

Ceteareth 25 specifically is a polyethylene glycol ether of cetyl and stearyl alcohols.
Ceteareth 25 is used as an emulsifying agent and a surfactant in various skincare and haircare products.

As an emulsifier, Ceteareth 25 helps to mix oil and water-based ingredients, allowing for the creation of stable emulsions in products like creams and lotions.
As a surfactant, Ceteareth 25 can help to reduce the surface tension of a liquid, aiding in the even distribution of a product on the skin or hair.

Boiling point: 330-400℃ at 101kPa
Density: 0.87g/cm3 at 21℃
vapor pressure: 0-5Pa at 20℃
Flash point: 243℃
solubility: H2O: 1 g/10 mL, clear, colorless
form: Notspecified
Odor: at 100.00?%. mild waxy
LogP: 5.91-8.43 at 22-25℃ and pH5.25-7
Surface tension: 67.5mN/m at 6.6mg/L and 25℃
EWG's Food Scores: 1-3

Ceteareth 25 fulfills optimally the necessary double function, i.e. emulsification of lipoid ingredients, and – together with the consistency promoters – formation of
viscosity-increasing structures in the water phase.
Ceteareth 25 helps other ingredients to dissolve in a solve.
Ceteareth 25 effectively removes impurities and dirt from the surface of the skin and hair.

The particles of this surfactant surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth 25 is also an effective foaming agent.
In addition, Ceteareth 25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants.

Ceteareth 25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth 25, as an emulsifying agent, helps to incorporate both water and oil components into a formulation.
This is essential for creating moisturizing products, such as creams and lotions, where the combination of water and oils helps to hydrate and nourish the skin.

In addition to its emulsifying properties, Ceteareth 25 contributes to the spreadability and ease of application of cosmetic products.
Ceteareth 25 helps ensure that the product can be evenly distributed over the skin or hair, providing a more uniform and pleasant application experience.
The stability of a cosmetic product is crucial for its shelf life and performance.

Ceteareth 25 plays a role in maintaining the stability of the formulation, preventing ingredients from separating or undergoing undesirable changes over time.
In many formulations, Ceteareth 25 is used in combination with other emulsifiers to achieve the desired texture and stability.
This allows formulators to tailor the properties of the product to meet specific requirements.

Ceteareth 25 is commonly used in cosmetic and personal care products that adhere to industry standards for stability, safety, and performance.
Ceteareth 25 is favored for its versatility and compatibility with a wide range of other cosmetic ingredients.
The versatility of Ceteareth 25 makes it suitable for both rinse-off and leave-on products.

Ceteareth 25 may be found in shampoos (rinse-off) as well as in creams or lotions (leave-on).
Ceteareth 25 and Ceteareth-20 is a cosmetic raw material, with decontamination and emulsifying capacity.
Ceteareth 25 a nonionic emulsifier, suitable to obtain O/W cream and lotions,also can be used in hair conditioning products, anti-perspirants.

Excellent emulsification ability, suitable for emulsification of mineral oil(eg: white oil),nature oil, stearyl and etc.Can obtain a steady system when used alone.
Ceteareth 25 can be used in high density electrolytical system.Vegetable based,low irritation.
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioner.

Ceteareth 25’s also used in cosmetics and personal care products such as lotions, creams, and sunscreen.
Ceteareth 25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth 25 forms a colloid solution in water and alcohol.

Ceteareth 25 is an universal emulsifier to make o/w emulsions.
Ceteareth 25 has a strong softening, moisturising and conditioning effect thanks to the properties typical for emollients.
Ceteareth 25 reduces the itching and peeling of skin.

One of the primary functions of Ceteareth 25 is to serve as an emulsifying agent.
Emulsifiers help blend water and oil-based ingredients in a formulation, preventing them from separating.
This is crucial in the production of creams, lotions, and other emulsion-based cosmetic products.

In cosmetic formulations, Ceteareth 25 contributes to the texture and consistency of the product.
Ceteareth 25 helps create a smooth and stable texture, enhancing the overall feel and performance of the product on the skin or hair.
Ceteareth 25 also acts as a stabilizer in formulations, ensuring that the product maintains its structure and integrity over time.

This is particularly important for products that have a longer shelf life.
Ceteareth 25 is known for its compatibility with a wide range of cosmetic ingredients, making it a versatile choice for formulators.
Ceteareth 25 allows for the creation of various cosmetic and personal care products with diverse ingredient combinations.

Ceteareth 25 is frequently found in hair care products such as shampoos, conditioners, and styling products.
Ceteareth 25 is emulsifying properties are valuable for creating stable formulations in these products.
Cosmetic ingredients, including Ceteareth 25, are subject to regulations and safety assessments by relevant authorities in different countries.

Regulatory agencies evaluate the safety and suitability of these ingredients for use in cosmetics.
Ceteareth 25 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water.
Ceteareth 25 served as a cleaner in the metal machining process, which makes the surface of the oil remove easily, is advantageous for the subsequent processing.

In the general industrial , Ceteareth 25 can be used to produce good and homogeneous emulsion as emulsifier.
In the glass industry, Ceteareth 25 can drop glass breakage in the drawing and winding process, and it also can prevent cottony phenomenon, improve the quality of the glass drawing and production efficiency.
Because of its strong detergency and antistatic effect, Ceteareth 25 can be used for making polyester and other synthetic fiber spinning oil components, it is also good material for making wool detergent, fruit tree pesticide penetrating agent, etc.

Ceteareth 25 is a surfactant made from cetearyl alcohol, which can be derived from animals (not used by ecostore), synthetically produced, or made from plants oils such as coconut and palm.
The '25' in the name refers to the number of ethylene oxide units in the molecule.
Ceteareth 25 acts as a dispersing agent, o/w co-emulsifier and wetting agent.

Ceteareth 25 is used in skin care creams as well as lotions, microemulsion gels, hair relaxers, perms, depilatories, antiperspirants, shaving products, color cosmetics, feet, hands as well as nails, styling, relaxing/permanent waves, roll on, other (cream) and face.
Ceteareth 25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).

Uses:
Ceteareth 25 is a polymer used in cosmetics formulations.
An oil-In-water emulsifier that can function in ointment, cream, gel and other cosmetics formulations.
Reagent in liquid crystal nanoparticle formulations as an oral drug delivery system for liver specific distributions.

Ceteareth 25 is widely used in creams and lotions, foundation and sunscreens.
Ceteareth 25 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant in personal care.
Ceteareth 25 is primarily used as an emulsifying agent.

Ceteareth 25 helps blend water and oil-based ingredients in cosmetic formulations, preventing them from separating.
This property is crucial in the production of creams, lotions, and other emulsion-based products.
Ceteareth 25 is often found in the formulation of creams and lotions, where the goal is to create a stable and well-textured product that combines the benefits of both water and oil components.

Ceteareth 25s are commonly used for moisturizing and hydrating the skin.
Ceteareth 25 is frequently used in hair care products such as shampoos, conditioners, and styling products.
Ceteareth 25 is emulsifying properties contribute to the even distribution of ingredients, providing benefits like conditioning and styling without leaving a greasy residue.

In hair styling products like gels and mousses, Ceteareth 25 helps maintain the desired texture and consistency.
Ceteareth 25 aids in the distribution of styling agents and contributes to the product's overall performance.
Due to its emulsifying capabilities, Ceteareth 25 is used in the formulation of shampoos and conditioners to ensure a homogeneous blend of water and oil-based ingredients, resulting in effective cleansing and conditioning.

Ceteareth 25 is commonly found in various skin care products, including cleansers, moisturizers, and serums.
Ceteareth 25 contributes to the formulation's stability, texture, and ease of application on the skin.
Ceteareth 25 can be present in a wide range of cosmetic formulations, contributing to the overall sensory experience of the product, such as its smoothness, spreadability, and absorption.

In addition to its cosmetic uses, Ceteareth-25 may find application in certain industrial processes where emulsification and stabilization of formulations are required.
Ceteareth 25 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant, it is a common ingredient in hair products such as pomades and conditioner.
In the chemical fiber industry, as one of the components of various chemical fiber spinning oils, Chemicalbook has good spinnability; as an emulsifier in the general industry, it has good emulsifying properties for animal, plant, and mineral oils, and the prepared emulsionIt is very stable.

Ceteareth 25 is sometimes included in the formulation of sunscreens.
Ceteareth 25 is emulsifying properties aid in creating stable emulsions for sunscreen lotions, ensuring even distribution of UV-blocking agents.
The stabilizing properties of Ceteareth 25 make it valuable in maintaining the stability of cosmetic formulations, especially those containing a mix of water and oil-based ingredients.

This contributes to the product's longevity and prevents undesirable changes over time.
In products that include essential oils, Ceteareth 25 can help disperse these oils evenly throughout the formulation, ensuring a consistent concentration of fragrance or therapeutic compounds.
Ceteareth 25 is effective in dispersing hydrophobic (water-repelling) ingredients into water-based formulations.

This makes it useful in a variety of cosmetic Ceteareth 25 where the combination of water and oil components is required.
Ceteareth 25 may be used in the formulation of cleansing products such as facial cleansers and body washes.
Ceteareth 25 is emulsifying properties aid in creating formulations that effectively remove dirt and impurities from the skin.

Given its mild nature and emulsifying capabilities, Ceteareth 25 is sometimes used in formulations for baby care products such as creams, lotions, and shampoos.
The emulsifying properties of Ceteareth 25 are beneficial in the formulation of shaving creams and gels, ensuring a smooth texture and allowing for easy application.
In certain medicated skincare products, Ceteareth 25 may be included to help deliver active ingredients evenly to the skin and enhance the overall performance of the product.

Compliance with Cosmetic Regulations: Cosmetic ingredients, including Ceteareth 25, need to comply with regulations set by various authorities.
Formulators often choose ingredients that meet safety standards and regulatory requirements in the regions where their products will be sold.
Ceteareth 25 can also be used to prepare household detergents, industrial detergents, and metal cleaners.

Ceteareth 25 can be used as a wetting agent in the textile industry.
Ceteareth 25 can be used as a component of emulsifiers in the pesticide industry.
Ceteareth 25 is used in the printing and dyeing industry as a leveling agent, retarding agent.

Ceteareth 25 makes the color firm, bright and beautiful.
Ceteareth 25 is often part of a broader mixture of emulsifiers and surfactants within a cosmetic formulation.
This allows formulators to achieve a balance of properties, such as stability, texture, and skin feel, tailored to the specific requirements of the product.

Ceteareth 25 is known for its compatibility with various cosmetic ingredients, including preservatives, antioxidants, and active compounds.
This makes it a versatile choice for formulators looking to create complex formulations with multiple beneficial components.
In addition to creams and lotions, Ceteareth 25 may be used in the formulation of gel-based products, providing the necessary emulsification for a stable and easily applicable gel texture.

Ceteareth 25 can contribute to the transparency of certain formulations.
In products where a clear or transparent appearance is desirable, such as some gels or serums, Ceteareth 25 may be chosen for its ability to maintain clarity.
While primarily an emulsifier, Ceteareth 25 may also contribute to the viscosity (thickness) of a product.

This can be beneficial in achieving a desired product texture, especially in formulations where a thicker consistency is preferred.
Ceteareth 25 is an ethoxylated compound, meaning it contains ethylene oxide units.
This ethoxylation process enhances the Ceteareth 25's surfactant properties and contributes to its emulsifying abilities.

Some ethoxylated compounds, including those in the Ceteareth 25 family, may undergo biodegradation under certain conditions.
This can be a consideration for formulators aiming to create products with environmental sustainability in mind.
Due to its versatility and widespread use, Ceteareth 25 can be found in a wide range of personal care products, contributing to the diversity of formulations available in the market.

Formulators often consider global trends in cosmetic science and consumer preferences when selecting ingredients.
Ceteareth 25's established use in cosmetic formulations aligns with industry trends focused on stability, efficacy, and a pleasant user experience.

Safety Profile:
While Ceteareth 25 is considered to be a mild and non-irritating emulsifier, individuals with sensitive skin may still experience irritation.
Ceteareth 25's advisable to perform a patch test before using products containing this ingredient extensively, especially for those with known sensitivities.
Avoid contact with eyes, as Ceteareth 25, like many surfactants, may cause eye irritation.

If accidental contact occurs, rinse eyes thoroughly with water.
The safety of Ceteareth 25 is often assessed within the context of the entire formulation.
The concentration of the ingredient and its interactions with other components can influence its safety profile.

Cosmetic formulations undergo rigorous safety testing to ensure they meet regulatory standards.
Ceteareth 25 is produced through ethoxylation, a process that involves treating fatty alcohols with ethylene oxide.

During this process, trace amounts of ethylene oxide or other byproducts may be present.
However, these byproducts are typically at very low levels and are subject to regulatory limits to ensure safety.

Synonyms:
Alcohols, C16-18, ethoxylated
Alcohols, C16-18, ethoxylated
(E)-18-ethoxyoctadec-3-ene
Alcohols C16-18, ethoxylated
Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO)
Alcohols, C16-18 ethoxylated
Alcohols, C16-18, 2EO
ALCOHOLS, C16-18, ETHOXYLATED
Alcohols, C16-18, ethoxylated
Alcohols, C16-18, ethoxylated (CTS) (MAN)
ALCOHOLS, C16-18, ETHOXYLATED (EO=6, 11 + 20)
Alcohols, C16-18, ethoxylated, 5-20 EO
Alkyl alcohol ethoxylate
alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO)
C16-18 alcohols, ethoxylated
C16-18 alcohols, ethoxylated (6 mol EO average molar ratio)
C16-18 alcohols, ethoxylated(?)
C16~18 fatty alcohol polyoxyethylene ether
CSA 06, CSA 11, CSA 20, CSA 25, CSA 30, CSA 80
Ethoxtlated fatty alcohol
Fatty alcohol ethoxylate
Polyethylene cetostearyl ether
Alcohols, C16-18, ethoxylated
Alcools en C16-18 éthoxylés
Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance
Alfonic 1618-46
Alfonic 1618-62
Alfonic 1618-80
Alkohole, C16-18, ethoxyliert
Alkyl polyglycol ether C16-18 with EO
Alkyl Polyglykolether C16-18 mit EO
Atlas G-4822; 12-EO
Berol 07
Berol TVM 065; 10-EO; 100% Active Matter; active substance
BF 4324; 20-EO
C16-18 alcohols, ethoxylated
C16-18 alcs., ethoxylated
C16-18 fatty alcs., ethoxylated
C16-18 Fettalkohol + 50 EO; 50-EO
C16-18, ethoxylated alcs.
C16/18-Fettalkohol + 14 EO; 14-EO
C16/18-Fettalkohol + 6 EO; 6-EO
Cemulsol DB
Ceteareth
Ceteareth 20
Ceteareth 20 (INCI)
Ceteareth Series
Ceteareth-10
Ceteareth-10 (INCI)
Ceteareth-100
Ceteareth-100 (INCI)
Ceteareth-11
Ceteareth-11 (INCI)
Ceteareth-12
Ceteareth-12 (INCI)
Ceteareth-13
Ceteareth-13 (INCI)
Dehydol PTA 23; 25-EO
DEHYDOL PTA 40; 40-EO
Dehydol PTA 80/E; 25-EO
Dispercoll U VP KA 8758; 2-EO
DISPONIL 21 GESCH; 20-EO
Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance
Disponil 21; 20-EO
Disponil B 1; 12-EO; 100% Active Matter; active substance
Disponil B 2; 20-EO
DISPONIL B 3 GESCH; 30-EO
Disponil B 3 geschuppt; 30-EO
Disponil B 3; 30-EO
EMPILAN K M 20; 20-EO
Empilan KM 11
Empilan KM 15
Empilan KM 20
Empilan KM 25; 25-EO
Emulgator E 2209; 30-EO
Emulgin B 1
Emulgin B2
Ethal CSA 10
Ethal CSA 17
Ethoxylated alcohols, C16-18
Ethoxylated C16-18 alcs.
Ethoxylated cetostearyl alcohol
Eumulgin
EUMULGIN 535; 6-EO; 100% Active Matter; active substance
Eumulgin B 1
EUMULGIN B 1 FEST; 12-EO
EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance
EUMULGIN B 1 U; 12-EO
Eumulgin B 1 Vorprodukt; 12-EO
Eumulgin B 1; 12-EO; 100% Active Matter; active substance
Eumulgin B 2
EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance
EUMULGIN B 2 U GESCHUPPT; 20-EO
EUMULGIN B 2 U W; 20-EO
EUMULGIN B 2 U; 20-EO
Eumulgin B 2 Vorprodukt; 20-EO
Eumulgin B 2; 20-EO; 100% Active Matter; active substance
Eumulgin B 3
Eumulgin B 3 flaked; 30-EO
EUMULGIN B 3 FLS; 30-EO
Eumulgin B 3 gesch.; 30-EO
Eumulgin B 3 geschuppt; 30-EO
EUMULGIN B 3 U; 30-EO
Eumulgin B 3 Vorprodukt; 30-EO
EUMULGIN B 3; 30-EO; 100% Active Matter; active substance
EUMULGIN B-2 FLAKES; 20-EO
EUMULGIN B2 FLAKED; 20-EO
Eumulgin C 1000
Eumulgin C 700
Eumulgin CS 3
Eumulgin CS 6; 6-EO
Eumulgin D 2; 2-EO
Eumulgin KJ-10
F 568; 20-EO
FA + 12 EO, C16-18; 12-EO
FA + 14 EO, Talg C16-18; 14-EO
FA + 20 EO, C16-18; 20-EO
FA + 25 EO, C16-18; 25-EO
FA + 30 EO, C16-18; 30-EO
FA + 5 EO, Talg C16-18; 5-EO
FA + 50 EO, C16-18 (gemahlen); 50-EO
FA + 6 EO, C16-18; 6-EO
FA + 80 EO, Talg; 80-EO
FA, C16-18, + 8 EO; 8-EO
FA-C16-18 + EO
FA-C16-18, ethoxylated
FA-C16-18, ethoxyliert
FAEO C16-18 + 10EO (NRE); 10-EO (NRE)
FAEO C16-18 + 10EO; 10-EO
FAEO C16-18 + 11EO; 11-EO
FAEO C16-18 + 12EO; 12-EO
FAEO C16-18 + 13EO; 13-EO
FAEO C16-18 + 14EO; 14-EO
FAEO C16-18 + 15EO; 15-EO
FAEO C16-18 + 16EO; 16-EO
FAEO C16-18 + 20EO; 20-EO
FAEO C16-18 + 25EO; 25-EO
FAEO C16-18 + 26EO; 26-EO
FAEO C16-18 + 2EO; 2-EO
FAEO C16-18 + 30EO; 30-EO
FAEO C16-18 + 33EO; 33-EO
FAEO C16-18 + 3EO; 3-EO
FAEO C16-18 + 40EO; 40-EO
FAEO C16-18 + 4EO; 4-EO
FAEO C16-18 + 50EO; 50-EO
FAEO C16-18 + 5EO; 5-EO
FAEO C16-18 + 6EO; 6-EO
FAEO C16-18 + 80EO; 80-EO
FAEO C16-18 + 8EO; 8-EO
FAEO C16-18 + 9EO; 9-EO
FAEO C16-18 + nEO; n-EO
Fatty alcs., C16-18, ethoxylated
Fettalkohol+3-EO; 3-EO
Fettalkohol-C16/18-30 EO
Fettalkohole, C16-18 + EO
Fettalkohole, C16-18, ethoxyliert
Findet 1618 A 72 P; 60-EO
G 3816
Genapol T 080; 8-EO
GENAPOL T 110 FLS; 11-EO
Genapol T 110; 11-EO
Genapol T 250 P; 25-EO
Genapol T 250; 25-EO
Genapol T 500 gemahlen; 50-EO
Genapol T 500 P; 50-EO
Genapol T 500; 50-EO
Genapol T-250 Pulver; 25-EO
Genapol T-500 Pulver; 50-EO
Genapol T-800; 80-EO
GENAPOL TP 1653 M-2
Hostacerin T 3
Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance
Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance
Imbentin AG 168/060
Imbentin AG 168/090
Imbentin AG 168/200
Imbentin AG 168S030
Imbentin AG 168S110
Imbentin AG 168S300
INTERMEDIO KJ-73; 20-EO
INTERMEDIO KJ-74; 30-EO
CETEARETH-6
68439-49-6
BRIJ CS6
CETEARETH 6
CETEARETH 6 [VANDF]
CETEARETH-6 [INCI]
MACROGOL 6 CETOSTEARYL ETHER
PEG-6 CETYL/STEARYL ETHER
POLYETHYLENE GLYCOL 300 CETYL/STEARYL ETHER
PROCOL CS-6
2RJS3559D3
CETEARETH 50
CETEARETH 50 = C16-18 ALCOHOLS,ETHOXYLATED (50 MOL EO AVERAGE MOLAR RATIO)


CAS Number: 68439-49-6
EC Number: 500-212-8
Chem/IUPAC Name: C16-18 ALCOHOLS,ETHOXYLATED (50 MOL EO AVERAGE MOLAR RATIO)
Classification: Ethoxylated compound , Nonionic surfactant
Molecular Formula:C18H38O




Ceteareth 50 is supplied as white to slightly yellowish wax-like flakes or pellets with a faint characteristic odor.
Ceteareth 50 is a nonionic, self-emulsifying base and consistency giving factor for cosmetic O/W emulsions including hair coloring, and is suitable for low viscous systems.
Ceteareth-50 is a nonionic surfactant prepared from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Ceteareth 50 makes it possible to create oil-in-water type emulsions.


Ceteareth-50 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Ceteareth-50 is an emulsifier of various origins.
Ceteareth-50 is a nonionic surfactant made from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
It also features key factors that are responsible for boosting or upsetting the market growth and for the assuring opportunities in the global Ceteareth-50 Industry.


The polyethylene glycol ethers of cetearyl alcohol are called ceteareths.
The INCI names ceteareth-n (where n is a number) refer to polyoxyethylene ethers of a mixture of high molecular mass saturated fatty alcohols, mainly cetyl alcohol (m = 15) and stearyl alcohol (m = 17).
The number n indicates the average number of ethylene oxide residues in the polyoxyethylene chain.
These compounds are non-ionic surfactants that work by attracting both water and oil at the same time, frequently used as emulsifiers in soaps and cosmetics.


Ceteareth compounds are fatty alcohols made from a mixture of cetearyl alcohol and ethylene oxide.
The number in the ingredient name refers to the number of ethylene oxide molecules.
The ingredient is mostly used as an emollient and emulsifier, as well as a mixing and thickening agent in cosmetics.
There is some controversy as to how safe the ingredient is.
"Ceteareth-" refers to a PEG (polyethylene glycol) ether of cetearyl alcohol. The number after "ceteareth-" indicates the average number of molecular units -CH2-CH2-O-.


Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids.
In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.


Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.

List of ceteareth compounds:
Ceteareth-2
Ceteareth-3
Ceteareth-4
Ceteareth-5
Ceteareth-6
Ceteareth-7
Ceteareth-8
Ceteareth-9
Ceteareth-10
Ceteareth-11
Ceteareth-12
Ceteareth-13
Ceteareth-15
Ceteareth-16
Ceteareth-17
Ceteareth-18
Ceteareth-20
Ceteareth-22
Ceteareth-23
Ceteareth-25
Ceteareth-27
Ceteareth-28
Ceteareth-29
Ceteareth-30
Ceteareth-33
Ceteareth-34
Ceteareth-40
Ceteareth-50
Ceteareth-55
Ceteareth-60
Ceteareth-80
Ceteareth-100



USES and APPLICATIONS of CETEARETH 50:
Ceteareth 50 is used emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners and sunscreen products
Ceteareth 50 is used in cosmetics as a surfactant and emulsifier.
Ceteareth 50 is used in cosmetics as a surfactant and emulsifier.
Ceteareth 50 enables the production of oil-in-water emulsions.


Ceteareth-50 is used in cosmetic products as emulsifier and surfactant.
Ceteareths-50 to -100, cleanses the skin and hair by helping water mix with oil and dirt so these substances dissolve they can rinse.
Ceteareth 50 is used HAIR CARE, Hair dyes, SKIN CARE, Body care, Skin moisturizer, Cleanser, Sun Care, Mother and baby, Hair care, Hair color, Bath and Body.
Ceteareth 50 helps to form emulsions by reducing the surface tension of the substances to be emulsified.


Ceteareth 50 helps other ingredients to dissolve in a solvent in which they would not normally dissolve and clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.
In cosmetics and personal care products, Ceteareth 50 ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colours, and tints.
Further, Ceteareth 50 has great cleansing and foaming properties as well.


-Cosmetic Uses of Ceteareth 50:
*cleansing agents
*surfactants
*surfactant - emulsifying
*Emulsifier, Surfactant


-Application & Functionality of Ceteareth 50 is used:
*Surfactant
*Solubilizing agent
*Dispersing agent
*Thickener
*Binder for granulation


-Function of Ceteareth 50 in cosmetics:
*CLEANSING: Cleans skin, hair or teeth
*TENSID (EMULSIFYING) - EMULGATOR: Allows the formation of finely divided mixtures of oil and water (emulsions)
*TENSID (CLEANING): Detergent substance for cleaning skin, hair and/or teeth



WHAT DOES CETEARETH-50 DO IN A FORMULATION?
*Cleansing
*Emulsifying
*Surfactant



FUNCTIONS OF CETEARETH-50:
*Cleaning agent:
Helps keep a surface clean
*Emulsifying agent:
Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Reduces the surface tension of cosmetics and contributes to the even distribution of the product during use



FUNCTIONS OF CETEARETH-50 IN COSMETIC PRODUCTS
*CLEANING:
Cleans skin, hair or teeth
*TENSID (EMULSIFYING) - EMULGATOR:
Allows the formation of finely divided mixtures of oil and water (emulsions)
*SURFACTANT (CLEANING):
Detergent substance for cleaning skin, hair and/or teeth



WHY IS CETEARETH-50 IN COSMETICS AND PERSONAL CARE PRODUCTS?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



PHYSICAL and CHEMICAL PROPERTIES of CETEARETH 50:
Appearance Form: crystalline
Color: white
Odor: characteristic
Odor Threshold: No data available
pH: 5,0 - 7,0 at 100 g/l at 20 °C
Melting point/freezing point:
Drop point: ca.47 °C
Initial boiling point and boiling range: No data available
Flash point: 243 °C
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability explosive limits or: No data available

Vapor pressure: < 0,1 hPa at 20 °C
Vapor density: No data available
Density: 1,0 g/cm3 at 60 °C - DIN 51757
Relative density: No data available
Water solubility: 100 g/l at 20 °C - soluble
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: > 200 °C
Decomposition temperature > 300 °C -
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: ca.70 mPa.s at 60 °C

Explosive properties: No data available
Oxidizing properties: none
Other safety information: No data available
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Appearance at 25ºC Solid/Waxy flakes
Acid value mg KOH/gm max: 1
Color apha: 100
Hydroxyl value mg KOH/gm: 20-26
% Moisture content by KF: 1
pH: 6-8



FIRST AID MEASURES of CETEARETH 50:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled.
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a
physician.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARETH 50:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up dry.
Dispose of properly.



FIRE FIGHTING MEASURES of CETEARETH 50:
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARETH 50:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CETEARETH 50:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry



STABILITY and REACTIVITY of CETEARETH 50:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available



SYNONYMS:
Alcohol C16 C18 ethoxylated, Fatty alcohol ethoxylate
CETEARETH-50
CETEARETH-50 [INCI]
EMPILAN KM50/FK
GENAPOL T 500 P
HETOXOL CS-50
PROCOL CS-50
ROLFOR HT 50
SABOWAX CS 50
CETEARETH 80
Ceteareth 80 is an oil-in-water emulsifier that is used for the production of ointments, creams, liquid emulsions, gels and other cosmetic formulations.
Ceteareth 80 is supplied in the form of free-flowing, non-dusting micro-granules, and is an efficient protective colloid that can increase the stability of dispersed systems.
Ceteareth 80 is intended for use in R&D only.

CAS: 68439-49-6
MF: C18H38O
MW: 0
EINECS: 939-518-5

The INCI names ceteareth-n (where n is a number) refer to polyoxyethylene ethers of a mixture of high molecular mass saturated fatty alcohols, mainly cetyl alcohol (m = 15) and stearyl alcohol (m = 17).
The number n indicates the average number of ethylene oxide residues in the polyoxyethylene chain.
These compounds are non-ionic surfactants that work by attracting both water and oil at the same time, frequently used as emulsifiers in soaps and cosmetics.
Ceteareth 80 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).

Ceteareth 80 is available as a white, waxy solid.
Ceteareth 80 is used as an emulsifier in oil/water emulsions.
Ceteareth 80 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Compared to Ceteareth-20, Ceteareth-25 has a bit more gel-forming and thickening properties.
Its chemical formula is C18H38O.

Ceteareth 80 Chemical Properties
Boiling point: 330-400℃ at 101kPa
Density: 0.87g/cm3 at 21℃
Vapor pressure: 0-5Pa at 20℃
Fp: 243℃
Solubility: H2O: 1 g/10 mL, clear, colorless
Form: Notspecified
Odor: at 100.00?%. mild waxy
LogP: 5.91-8.43 at 22-25℃ and pH5.25-7
Surface tension: 67.5mN/m at 6.6mg/L and 25℃
EPA Substance Registry System: Ceteareth 80 (68439-49-6)

Uses
Ceteareth 80 is a polymer used in cosmetics formulations.
An oil-In-water emulsifier that can function in ointment, cream, gel and other cosmetics formulations.
Reagent in liquid crystal nanoparticle formulations as an oral drug delivery system for liver specific distributions.
Ceteareth 80 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant in personal care.

As surfactant: Ceteareth 80 effectively removes impurities and dirt from the surface of the skin and hair.
The particles of Ceteareth 80 surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth 80 is also an effective foaming agent.
In addition, Ceteareth 80 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants.

As emulsifier: Due to Ceteareth 80's strong hydrophilic nature, Ceteareth-25 is perfect for creating oil-in-water emulsions.
Due to its very good emulsifying properties, Ceteareth 80 can be used for the preparation of emulsions at room temperature

As solubilizer: Ceteareth 80 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances.
Ceteareth 80 has a strong softening, moisturizing and conditioning effect.
Ceteareth 80 reduces the itching and peeling of skin.
Ceteareth 80 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water.

Synonyms
(C16-C18) Alkyl alcohol ethoxylate
AliphaticC16-18-alcohol,ethoxylated
C16-18-Alkylalcohol,ethoxylate
C16-18-Alkylalcoholethoxylate
cremophor¨a25
ethoxylatedfattyalcohols(c16-18)
CETEARETH-2
CETEARETH-3
CETEARETH-10
CETEARETH-10 PHOSPHATE, N° CAS : 106233-09-4, Nom INCI : CETEARETH-10 PHOSPHATE, Agent nettoyant : Aide à garder une surface propre, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
CETEARETH-10 PHOSPHATE
CETEARETH-100, N° CAS : 68439-49-6, Nom INCI : CETEARETH-100, Agent nettoyant : Aide à garder une surface propre, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20 Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-100
Alcohols, C16-18, ethoxylated (3->20 EO); CETEARETH-11, N° CAS : 68439-49-6, Nom INCI : CETEARETH-11, Classification : Composé éthoxylé, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Principaux synonymes Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-11
CETEARETH-12, N° CAS : 68439-49-6, Nom INCI : CETEARETH-12, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-12
Ceteareth-12; T/N: Unimul B-1; T/N: Emulgin B1; Polyoxyethylene Cetearyl Ether; Ethoxylated Fatty Alcohol; Chemonic CT-12; Jeecol CS-12; Ceterayl Alcohol and Ceteareth-12; Polyoxyethylene Ether of Cetyl/Stearyl Alcohol cas no:68439-49-6
CETEARETH-13
CETEARETH-15, N° CAS : 68439-49-6, Nom INCI : CETEARETH-15, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-15
CETEARETH-16, N° CAS : 68439-49-6, Nom INCI : CETEARETH-16. Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-16
CETEARETH-18, N° CAS : 68439-49-6, Nom INCI : CETEARETH-18. Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20 Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-18
CETEARETH-2, N° CAS : 68439-49-6, Nom INCI : CETEARETH-2, N° EINECS/ELINCS : 500-212-8, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-2
CETEARETH-2 PHOSPHATE, N° CAS : 106233-09-4, Nom INCI : CETEARETH-2 PHOSPHATE, N° EINECS/ELINCS : 500-295-0 Agent nettoyant : Aide à garder une surface propre.Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
CETEARETH-2 PHOSPHATE
CETEARETH-20, N° CAS : 68439-49-6, Nom INCI : CETEARETH-20, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français :Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-20
Ceteareth – 20 [ UnicolC20 ]; Chemonic CT-20; Lumulse CS-20; Hetoxol CS-20; Ceterayl Alcohol and Ceteareth-20; Polyoxyethylene Ether of Cetyl/Stearyl Alcohol cas no: 68439-49-6
CETEARETH-20
Ceteareth-20 is white pellets of non-ionic polyoxyethylene ether of higher saturated fats (cetyl/stearyl alcohol).
Ceteareth-20 has no odour and can be mixed with a wide variety of oils from fully natural to synthetic.
Ceteareth-20 is an emulsifying agent that is found in a range of skin care and hair care products.


CAS Number: 68439-49-6
Chem/IUPAC Name: C16-18 alcohols, ethoxylated (20 mol EO average molar ratio)


This emulsifying wax, Ceteareth-20, is a vegetable based emulsifier used for combining oil and water in recipes for lotions, creams, and other cosmetics.
Ceteareth-20 is derived from plant-based alcohols and derivatives.
Ceteareth-20 is emulsified and stabilized and produced from the reduction of plant oils and natural waxes.


Ceteareth-20 is a glycol ether derived from a blend of natural cetyl and stearyl alcohols (from coconut oil), and Cetearyl Alcohol, emulsified and stabilized and produced from the reduction of plant oils and natural waxes.
Ceteareth-20 is a high quality, readily emulsifiable product.


Ceteareth-20 consists of a defined proportion of Cetearyl Alcohol (common name Cetostearyl Alcohol or Cetyl Stearyl Alcohol) and Ceteareth-20.
Ceteareth-20 is a good all round emulsifier to produce o/w emulsions which are compatible with a large range of oils.
Ceteareth-20 is an emulsifying agent that is found in a range of skin care and hair care products.


Ceteareth-20's special properties help to keep skin and hair smooth, soft, and supple.
Ceteareth-20 appears white in color and is an odorless compound that attracts both oil and water, thus keeping the formulations together and stabilizing them.
Additionally, Ceteareth-20 works well with almost all the other ingredients and is safe for all skin types.


Ceteareth-20 is a non-ionic compound that is made by reacting Cetearyl alcohol with twenty molecules of ethylene oxide.
The number written along with Ceteareth-20 actually represents the number of ethylene oxide molecules that are added when making it.
Ceteareth-20 is a synthetic compound that is made in the labs and the process is known as ethoxylation.


Ceteareth-20 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
HLB value of Ceteareth-20 is 15-17 (gives oil-in-water emulsions).
Universal emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients.


Ceteareth-20 is very effective protective colloid that stabilizes all kinds of dispersed systems.
Ceteareth-20 can be combined with other emulsifiers.
Ceteareth-20 is the polyethylene glycol ether of cetearyl alcohol; may contain potentially toxic impurities such as 1,4-dioxane.


Ceteareth-20 is a good all round emulsifier which is compatible with a large range of oils.
Ceteareth-20 gives a good shine and silkiness to your finished product
Ceteareth-20 flakes is a non-ionic surfactant (INCI: Ceteareth-20).


Ceteareth-20 is a white solid available in the form of flakes with a waxy consistency.
The solidification point of Ceteareth-20 is about 40°C.
Ceteareth-20 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


HLB value of Ceteareth-20 15-17 (gives oil-in-water emulsions).
Ceteareth is a fatty alcohol which is made from Cetearyl Alcohol (a combination of cetyl and stearyl alcohol) and ethylene oxide.
The numeric value along with it denotes the number of ethylene oxide molecules added to it to generate that particular Ceteareth ingredient.


For example, Ceteareth 20 is made by combining 20 molecules of ethylene oxide to Cetearyl Alcohol.
Ceteareth 20 is also known to be the polyethylene glycol ether of Cetearyl Alcohol.
These compounds are nonionic surfactants which attract both water and oil at the same time.


Ceteareth-20 is an ether of fatty alcohols like Stearyl Alcohol or cetyl that are highly saturated.
Ceteareth 20 is nonionic polyoxyethylene that is odourless and is available in the form of pellets of white colour.
Ceteareth-20 is excellent cleansing properties make it one of the valuable additions in skin and hair cleansing applications.


Ceteareth-20 is a fatty (non-irritating) alcohol that plays various roles in skin care formulations.
Ceteareth-20 has a track record of safe use in cosmetics and is backed by the Cosmetic Ingredient Review Expert Panel.
Their most recent report (at the time of this writing) looked at products containing up to 11% ceteareth-20.


Ceteareth-20 is white waxy solid or flakes with a bland odor.
Ceteareth-20 is emulsifying water and oil phase, ideal for formulations with a low pH.
Does not require the aid of other emulsifiers, and Ceteareth-20 has high electrolyte tolerance.


Ceteareth-20 is a fatty alcohol, comprised of cetyl and stearyl alcohol, which are naturally-derived fatty acids from coconut oil.
An emollient and emulsifier, Ceteareth-20, used to stabilize oil and water mixtures, our ceteareth-20 has been purified of 1,4-dioxane and ethylene oxide.
Ceteareth-20 is a ‘fatty alcohol’.


Ceteareths are made from cetearyl alcohol, a blend of cetyl and stearyl alcohol, which are natural fatty acids from coconut oil, and ethylene oxide.
Ceteareth-20 is a nonionic emulsifier that is ethoxylated Cetearyl alcohol compounded with Cetearyl alcohol.
Ceteareth-20's excellent stability at pH levels of 3-12 makes it particularly useful in applications such as depilatories.


Also, due to Ceteareth-20's viscosity-building properties, this is recommended for use in hair relaxers and conditioners.
Ceteareth-20 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-20 is white pellets, no odor.


Ceteareth-20 dissolves in water & alcohol to form a colloid solution. Ceteareth-20 can be mixed with mineral, vegetable or synthetic fats and oils.
HLB value of Ceteareth-20 is 15-17 (gives oil-in-water emulsions).



USES and APPLICATIONS of CETEARETH-20:
Ceteareth-20 can be used alone or best combined with other emulsifiers to help stabilise the emulsion.
Ceteareth-20 has broad pH stability and finds application as an oil-in-water (O/W) emulsion base.
Ceteareth-20 may be used as the primary or secondary emulsifier in a wide variety of lotions, creams and pastes.


Because it is not an ester and is nonionic, Ceteareth-20 can be used in systems far from neutral pH, such as hair relaxers, depilatories, creme lotion developers, and AHA skin care creams.
Ceteareth-20 is dispersible in hot water and is typically utilized at 1 to 2.5% when utilized as a co-emulsifier and at up to 10% of the finished product composition when it is the sole emulsifier.


Store in sealed packages at temperatures not exceeding 90°F (32°C) to minimize caking and prevent liquefaction.
Ceteareth-20 is used for viscosity regulation.
Ceteareth-20 is used creams, lotions, serums, foundations, hair conditioners


Ceteareth-20 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.
Ceteareth-20 is a derivative based on renewable vegetable raw materials and is used mainly in cosmetic applications.
Ceteareth-20 is considered to be a universal emulsifier which produces o/w emulsion which is known to be compatible with a wide variety of oils.


Ceteareth-20 can be used alone or along with other emulsifiers to help stabilize the formulation.
Ceteareth-20's emollient property helps to keep your skin soft and smooth.
Ceteareth-20 also makes your hair silky and shiny.


Ceteareth-20 adds thickness by increasing the viscosity of the product formula, making your product look rich and creamy.
Ceteareth-20 works best with gel-forming thickeners, hence extensively used in facial serums and hair gels.
Ceteareth-20 acts as a protective colloid which helps to stabilize all kinds of dispersed active ingredients.


Ceteareth 20 acts as a surfactant in your skincare and hair care products.
The main function of a surfactant is to lower the surface tension between 2 liquids or solid-liquid, which allows them to mix together such as water and grime-dirt.
This action is responsible for the cleansing property in your shampoos, conditioners, soaps, skin cleansers, body washes, face washes etc.


Ceteareth 20 is used alone or it can also be used along with other emulsifiers for providing stability to the formulation.
Ceteareth-20 helps to bind all the active ingredients together in your skincare and haircare formulations, thereby making your formula more stable.
As Ceteareth 20 prevents the active ingredients in the formula from separating, it aids in the even application of the products, which helps to enhance the product performance.


The Cetearyl alcohol in the Ceteareth 20 is derived from natural oil (cetyl and stearyl alcohol) which helps to add thickness to the product, providing stability to the product formulation and is responsible for its emollient property.
These are some of the beneficial properties of Ceteareth 20, due to which it is extensively being used in the production of many skincare and hair care products you use daily.


Ceteareth-20 is considered to be a key ingredient in many surfactant-based formulations.
Ceteareth 20 is considered to be a key ingredient in all kinds of emulsion-based products, hence used in many bath products, toiletries and personal care products.
Ceteareth-20 acts as an excellent emulsifier, surfactant and exhibits emollient properties.


Its emollient property makes Ceteareth-20 an ideal choice in creams, moisturizing lotions, anti-ageing creams, shampoos, conditions, hair gels and serums.
Due to its emulsifying property, Ceteareth-20 is used in many skincare products such as facial moisturizers, skin cleansers, sunscreens, exfoliators, acne treatment ointments and in many popular hair care products such as shampoos, conditioners, hair sprays, hair dyes.


Ceteareth-20 is very effective in treating various dry skin conditions such as eczema and psoriasis.
Ceteareth 20 is used in the treatment, control and prevention of the various skin conditions such as diaper rashes.
Ceteareth-20 is effectively used in the treatment of skin burns from radiation therapy.


These are some of the best uses of Ceteareth 20.
Ceteareth-20 acts as an excellent emulsifier, surfactant and exhibits emollient properties.
This is why Ceteareth-20 is increasingly being used in major skincare, haircare and personal care products.
Emulsifying wax, Ceteareth-20, is used for combining oil and water in recipes for lotions, creams, and other cosmetics.


Ceteareth-20 is derived from both plant and synthetic sources.
To use, add approximately 4-5% by weight to your recipe.
Add into the oil phase and heat until melted.


Ceteareth-20 is heat tolerant but it is best to keep your oil phase to between 70-80C.
Ceteareth-20 usually acts as an emollient and emulsifying agent in many skin care and hair care formulations.
Ceteareth-20 is formulated in combination with fatty acids and other alcohols to add thickness to the formulation and it also helps other active ingredients dissolve in the solvent.


Ceteareth 20 is odourless and can be mixed with natural as well as synthetic oils.
Ceteareth-20 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.
Ceteareth-20 can be used as a surfactant (cleansing agent) or to thicken/enhance the product’s consistency.


Ceteareth-20 can also be used to help other ingredients in a formula solubilize and stay mixed together/stable, which contributes to efficacy.
Ceteareth-20 acts as an emollient and emulsifying agent in many skin care and hair care formulations.
Ceteareth-20 is formulated in combination with fatty acids and other alcohols to add thickness to the formulation and it also helps other active ingredients dissolve in the solvent.


Ceteareth-20 is used in personal care products, including hair dye, facial moisturiser, hair conditioner, sunscreen, acne treatments, exfoliants, cleansers, and anti-aging treatments.
Ceteareth-20 is derived from the glycol ether of cetearyl alcohol.


Ceteareth-20 is odourless and may be mixed with natural, as well as synthetic oils.
This makes Ceteareth-20 an excellent emulsifying agent that is commonly used in skin and hair care products.
The number in the name of Ceteareth emulsifiers refers to the average number of ethylene oxide molecules added.


Ceteareth 20 functions as both a surfactant and an emulsifier and is able to both thicken personal care products and help all the ingredients in the formulation stay together, improving the texture of the product and increasing its shelf life.
This fatty alcohol also acts as a penetration enhancer which alters the skin structure, allowing substances to penetrate deeper into the skin.


Emulsifying wax, Ceteareth-20, is a vegetable-based emulsifier used for combining oil and water in recipes for lotions, creams, and other cosmetics.
Ceteareth-20 is derived from plant-based alcohols and derivatives.
Ceteareth-20 functions as an emollient and emulsifier.


Ceteareth-20's usually used in conjunction with other alcohols and fatty acids, working to thicken a solution and help other ingredients dissolve in a solvent.
Ceteareth-20 also functions as a nonionic stabilizer in oil in water emulsions.
Ceteareth-20 is one of the most common emollients used in cosmetics, and you can find it in products such as hair dye, facial moisturizer, anti-aging treatment, conditioner, cleanser, sunscreen, exfoliant/scrub, depilatory cream and acne treatment.


Ceteareth-20 is widely used in the cosmetic industry.
Ceteareth-20 is especially used as an emulsifier in hair creams, personal care products, skin care and face care creams and lotions.
Ceteareth-20 also finds use in forming microemulsions and as an emulsifier in perfumes.


Ceteareth-20 works in a wide PH range.
Therefore, Ceteareth-20 is an important emulsifier in hot processes.
Cetearyl Alcohol is used in cosmetics as a stabilizer to thicken an emulsion and keep it from separating, and as a foaming agent.


Ceteareth-20 is soluble in both alcohol and water and is often used to give a colloidal structure to the solution.
The HLB value of Ceteareth-20 ranges between 15 and 17, and it is used in the making of oil-in-water emulsions.
Ceteareth-20 is an effective emulsifier and surfactant and also possesses emollient properties.


Ceteareth-20 can be used as a cleansing agent in cosmetic products.
Ceteareth-20 can be combined with synthetic and vegetable oils and minerals.
Ceteareth-20 helps in the production of emulsions by decreasing the surface tension of ingredients that are needed to be emulsified.


Ceteareth-20 also proves to be effective in reducing the viscosity or thickness of solutions used to make personal care products and liquid formulas.
Ceteareth-20 also helps other cosmetic raw materials to dissolve quickly in solvents.
Creams, gels, foundations, lotions, sunscreen applications, conditioners, and different types of products that are emulsion based contain Ceteareth-20.


Ceteareth-20 is a surfactant, surfactant (nonionic), emulsifier (o/w), cleansing agent, emulsifier, solubilizer used in personal care-personal hygiene,” other personal hygiene applications, baby care, color cosmetics, hair care, nail care, skin care, personal care-personal hygiene,” wipes, tissue & towel applications.


-Skin care:
Ceteareth-20 is a great emollient that works on the skin to make it smoother and softer.
Ceteareth-20 also stabilizes the formulations by helping to bind together water-based and oil-based ingredients


-Hair care:
In hair care products, Ceteareth-20 is responsible for providing moisture to the scalp and keeping it well hydrated.
In turn, the hair grows shinier and healthier, while the scalp is free from itchiness.
Ceteareth-20 also provides the required thickness to hair


-Cosmetic products:
Ceteareth-20 is used to provide texture and improve the look of the products.
Ceteareth-20 is an excellent surfactant that lowers the surface tension of the formulations and helps stabilize them


-Cosmetic Uses: cleansing agents
surfactants
surfactant - emulsifying


-Body Butter
High emollient, exfoliating, emulsifying, and viscosity-increasing properties of ceteareth 20 make it an essential ingredient in preparing body butter and conditioners.
Ceteareth-20 can be exceptionally beneficial for the skin.


-Moisturizer
Ceteareth 20 is an excellent emulsifier.
You can use Ceteareth-20 in the formulation of moisturizers.
Ceteareth-20 would act as an efficient emulsifier and bind the water and oil together, thereby formulating a best-in-class moisturizer.


-Skin Cleanser
Ceteareth 20 can be used to prepare highly efficient skin cleansers due to its effective surfactant properties.
Ceteareth-20 attracts the oil, dirt, and grime accumulated on your skin and helps wash them away.


-Hair Care Products
Ceteareth 20 has fabulous emollient properties that help add moisture to your hair and make it silky and shiny.
Ceteareth-20 keeps your scalp healthy by hydrating, thereby preventing dry and itchy scalp.


-Anti-inflammatory
Ceteareth 20 is highly effective in treating redness, inflammation, and skin conditions like eczema, cold sores, and rosacea.
Ceteareth-20 can also aid in relieving skin conditions like psoriasis, hives, and rashes.


-Shower Gels:
Ceteareth 20 aids in increasing the viscosity of a formulation and works excellently for gel-forming thickeners.
You can use Ceteareth-20 in the preparation of facial serums and shower gels.


-For your face and body:
Enjoy every drop of your body butters and hemp cream, as the texture, performance and richness are consistent, right to the bottom of the jar – no stirring required!


-For your special lotions:
Consistency, consistency, consistency.
Get the same quality products, from the top of the bottle right to the bottom.
Aaaaah, the relief!


-Products to Use in:
*Moisture Cream
*Moisture Lotion
*Body Butter
*Cleanser
*Face Mask
*Skin Peels
*Shower Gel
*Shampoo
*Conditioner


-Applications of Ceteareth-20:
*shampoos, conditioners, serums, hair masks,
*hair colour products,
*hair gels,
*creams for hands, feet, body,
*eye creams,
*anti-wrinkle creams,
*sunscreens,
*after shave creams,
*self-tanning products,
*balms, lotions (including for children),
*preparations for washing face and body,
*anti-acne preparations,
*make-up base, foundation,
*mascaras, eyeliners,
*make-up removers,
*depilatory preparations.



WHAT DOES CETEARETH-20 DO IN A FORMULATION?
*Cleansing
*Emollient
*Emulsifying
*Surfactant



BENEFITS OF CETEARETH-20:
*Universal emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients
*Very effective protective colloid that stabilizes all kinds of dispersed systems
*Can be combined with other emulsifiers
*Optimal use with gel-forming thickeners



FUNCTIONS OF CETEARETH-20:
Effective proprietary emulsifier blend for oil-in-water formulations. Contains cetearyl alcohol & ceteareth-20.
Ceteareth-20 forms highly stable emulsions with excellent appearance and feel, compatible with a wide range of ingredients and pH.
Ceteareth-20 is soluble in oil phase of formulation.
Ceteareth-20 is used in creams, lotions, cream-gels, foundations, and hair conditioners.



BENEFITS OF CETEARETH-20:
Ceteareth 20 is a non-ionic polyoxyethylene ether of higher fatty alcohols.
Ceteareth 20 is a white coloured, odourless compound which can be combined with a large variety of oils both natural as well as synthetic.
Ceteareth 20 is a chemical compound which is used extensively in many skincare, hair care and personal care formulations.
Ceteareth 20 is added in most of the cosmetic products not because it is directly beneficial to your skin or hair in any way, but because of its composition and functions.
Due to its incredible properties, Ceteareth 20 has secured a prominent place in the beauty industry.
Let us take a closer look at the benefits of Ceteareth 20.



ADVANTAGES OF CETEARETH-20:
*effective emollient and conditioning agent in cosmetics for washing and care of skin and hair,
*modifier of rheological properties (improves the consistency of preparations),
*oil-in-water (O / W) emulsion stabilizer,
*safe product, does not cause allergic reactions,
*based on renewable vegetable raw materials.



CETEARETH-20 AT A GLANCE:
*Fatty (non-irritating) alcohol often used to thicken/enhance the texture of skin care formulas
*Can also be used as a surfactant (cleansing agent)
*Helps other ingredients in a formula stay mixed together/stable
*Track record of safety backed by the Cosmetic Ingredient Review Expert Panel



BENEFITS OF CETEARETH-20:
• Works as a penetration enhancer
• Emulsifies and stabilises the products
• Adds viscosity to the formulation
• Acts as an excellent surfactant in cosmetic products



FUNCTIONS OF CETEARETH-20 IN COSMETIC PRODUCTS:
*CLEANSING:
Cleans skin, hair or teeth
*SURFACTANT - CLEANSING:
Surface-active agent to clean skin, hair and / or teeth
*SURFACTANT - EMULSIFYING:
Allows the formation of finely dispersed mixtures of oil and water (emulsions)



CETEARETH-20 BENEFITS:
*Stabilizer:
Cetearyl-20 is often used to stabilize various dispersed systems as it acts as a protective colloid.
Ceteareth-20 is also useful as a thickener in gels and other solutions where colloidal consistency is expected from the final product.

*Easily Blends:
Ceteareth-20 stabilizes emulsions when blended with other emulsifiers like glyceryl stearate and It is considered to be a key ingredient.
Ceteareth-20 can be used along with different types of oils and active substances as well.

*Penetration Capacity:
Natural ceteareth-20 functions as an emollient, surfactant and emulsifier.
Due to its high penetration capacity might not be wise to use products containing Ceteareth-20, especially if you have dry, sensitive, or damaged skin.

*Binding Properties:
Ceteareth 20 can be used with emulsifiers to provide stability to a formulation.
Ceteareth-20 helps in binding the active ingredients together in skincare and haircare formulations, thereby stabilizing your formula.

*Product Enhancing:
Ceteareth 20 helps prevent the active ingredients in the formula from separating and aids in the even, effective and efficient application of the products, thereby enhancing the product's performance.

*Emulsification:
Ceteareth-20 is an excellent emulsifier that helps produce an oil-water emulsion and is compatible with many oils.
Ceteareth-20 can be used with other emulsifiers to stabilize any product.



FEATURES AND BENEFITS OF CETEARETH-20:
*Bodying Agent
*Co-emulsifying Agent
*Emulsifying Agent (O/W)
*Emulsion Stabilizing Agent



FUNCTIONS OF CETEARETH-20:
*Solubilizer
*Emulsifier
*Cleansing Agent
*Emulsifier (O/W)
*Surfactant (Nonionic)
*Surfactant



HOW TO USE CETEARETH-20:
Simply heat up with your oils, then slowly add your heated spring / floral water, mixing all the time. Keep mixing until emulsified. Very easy to use!



SAFETY PROFILE OF CETEARETH-20:
Ceteareth-20 is safe for skin and hair but should not be used on damaged surfaces.
If the skin or hair has been compromised in any way, Ceteareth-20 may react to cause redness and itching.
Moreover, Ceteareth-20 can also be comedogenic for certain skin types.
A patch test is recommended prior to full usage.
The recommended use percent for Ceteareth-20 is 0-6%, and should not exceed 30% in any case.



HOW TO USE CETEARETH-20:
Heat the Ceteareth-20 to 60c - 70c within the oill stage of your formulations.
Ensure the Ceteareth-20 is fully disolved into your oil stage (use agitation if required) in order to minimise the risk of graininess in your final formulation.



ROLE OF CETEARETH-20 IN SKINCARE PRODUCTS:
Ceteareth 20 is a chemical compound which is made by combining Cetearyl Alcohol and ethylene oxide.
Ceteareth-20 is commonly used as an emollient in many skin care products which help to make your skin soft, supple and smooth.

Ceteareth-20 acts as an emulsifier in the skincare formulation.
An emulsifier is required in the formulation which contains both water and oil.
When water and oil are mixed together, Ceteareth-20 gets separated and the oil forms a thin film on the surface.
In the skincare products, in which oil is added to the water-based formula, Ceteareth-20 helps in binding the water and oil together and gives stability to the product.
Ceteareth 20 is compatible with a wide variety of oils and is soluble in water and isopropyl alcohol.

Ceteareth 20 acts as an excellent surfactant which helps to reduce the surface tension of the substances to be emulsified and helps to cleanse your skin thoroughly by allowing water to mix with oil and grime so that it could be washed away while rinsing.



ROLE OF CETEARETH-20 IN HAIR CARE PRODUCTS:
Ceteareth 20 works with other alcohols and fatty acids to add viscosity to the formulation and helps other active ingredients to dissolve in the solvent.
Ceteareth-20 acts as a nonionic stabilizer in oil and in water emulsions.
You find Ceteareth 20 in a lot of hair care products, because of its emollient and emulsifying properties which make your hair soft and shiny.

The emollient property of Ceteareth 20 helps to add moisture to your hair and makes the hair look silky, shiny and well hydrated.
Ceteareth-20 makes your scalp healthy by keeping it hydrated, thereby preventing dry and itchy scalp.
Ceteareth-20 is hydrophilic in nature, thereby attracts water molecules and helps retain moisture, thereby keeping your strands well hydrated.

Ceteareth 20 also acts as an excellent surfactant in cosmetic products.
As a surfactant, Ceteareth 20 helps to lower the surface tension between liquid and liquid or liquid and solid.
Ceteareth-20 allows the water molecules to mix with oil and dirt present on the hair and scalp, thus helping to get rid of the residue from your strands while washing.

Most of the surfactants have one hydrophilic end and the other lipophilic end.
One end attracts the water molecule while the other combines with the grease and dirt present on the surface of your strands which gets washed away.

As an emulsifier in the hair care formulation, Ceteareth 20 helps to bind water molecules and oil together, giving more stability to the product.
The main function of Ceteareth 20 as an emulsifier is to hold all the active ingredients in the formulation together, especially oil and water in the water-based formula.
Ceteareth-20 can be used level 0.5-30% (range of 15-30% used to make gel-like brushable hydrates).



WHAT IS CETEARETH?
Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids. In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.

Why is it used in cosmetics and personal care products?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



SCIENTIFIC FACTS OF CETEARETH-20:
Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.



PHYSICAL and CHEMICAL PROPERTIES of CETEARETH-20:
Melting Point: 40-46°C
pH: 5.5-7.5
Solubility: Soluble in water
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Chemical Formula: R(OCH2CH2)n
CAS Number: 68439-49-6
IUPAC Name: N/A
INCI Name: Ceteareth-20
Molecular Weight: 314.5 g/mol
Specific Gravity: N/A
Boiling Point: N/A
Flash Point: N/A
Odor: N/A
PH Level: 3-12
HLB Value: N/A
Color: White



FIRST AID MEASURES of CETEARETH-20:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARETH-20:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up dry.
Dispose of properly.



FIRE FIGHTING MEASURES of CETEARETH-20:
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARETH-20:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CETEARETH-20:
-Conditions for safe storage, including any incompatibilities
*Storage conditions
Tightly closed.
Dry



STABILITY and REACTIVITY of CETEARETH-20:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available



SYNONYMS:
C16-18 alcohols, ethoxylated
Polyoxyethylene glycol ether of cetearyl alcohol
PEG-18 Cetearyl alcohol
Polyoxy Cetearyl Alcohol
cetearyl alcohol, ethoxylated
polyoxyethylene ether of cetyl-stearyl alcohol
polyethylene glycol cetostearyl ether
Cetearyl Alcohol and Ceteareth-20
Unimul 7130
Standamul 7093
C16-18 Alcohols
(C16-C18) Alkyl alcohol
Eumulgin B2,Poe(20) Cetyl/stearyl Ether
Poe(20) Hexadecyl/stearyl Ether
Polyoxyethylen(20) Hexadecyl/stearylether
Polyoxyethylene(20) Cetylstearylether
Polyoxyethylene(20) Cetylstearylether.



CETEARETH-20
Ceteareth-20 is an emulsifying agent
Ceteareth-20 is found in a range of skin care and hair care products.
Ceteareth-20 is an odorless compound


CAS NUMBER: 68439-49-6

EC NUMBER: 500-212-8

MOLECULAR FORMULA: C56H114O21

MOLECULAR WEIGHT: 1123.5 g/mol

IUPAC NAME: C16 ~ 18 fatty alcohol polyoxyethylene ether


Ceteareth-20's special properties help to keep skin and hair smooth, soft, and supple.
Ceteareth-20 is white

Ceteareth-20 attracts both oil and water, thus keeping the formulations together and stabilizing them.
Additionally, Ceteareth-20 works well with almost all the other ingredients
Ceteareth-20 is safe for all skin types.

Ceteareth-20 can be found in the ingredient list of many personal care and cosmetic products.
The reason for this is the broad range of benefits that this ingredient offers.

*Skin care: Ceteareth-20 is a great emollient that works on the skin to make it smoother and softer.
Ceteareth-20 also stabilizes the formulations by helping to bind together water-based and oil-based ingredients

Hair care: In hair care products, Ceteareth-20 is responsible for providing moisture to the scalp and keeping it well hydrated.
In turn, the hair grows shinier and healthier, while the scalp is free from itchiness.
Ceteareth-20 also provides the required thickness to hair

*Cosmetic products: Ceteareth-20 is used to provide texture and improve the look of the products.
Ceteareth-20 is an excellent surfactant that lowers the surface tension of the formulations and helps stabilize them

Ceteareth-20 is a non-ionic compound that is made by reacting Cetearyl alcohol with twenty molecules of ethylene oxide.
The number written along with this compound actually represents the number of ethylene oxide molecules that are added when making it.
Ceteareth-20 is a synthetic compound that is made in the labs and the process is known as ethoxylation.

Ceteareth-20 is used as:
-Cleansing
-Emollient
-Emulsifying
-Surfactant

Ceteareth-20 is the polyethylene glycol ether of cetearyl alcohol
Ceteareth-20 is a good all round emulsifier which is compatible with a large range of oils.

Ceteareth-20 gives a good shine and silkiness to your finished product
Ceteareth-20 is non-ionic polyoxyethylene ether of higher saturated fats (cetyl/stearyl alcohol).

Ceteareth-20 has no odour
Ceteareth-20 can be mixed with a wide variety of oils from fully natural to synthetic.

Ceteareth-20 is a good all round emulsifier to produce emulsions which are compatible with a large range of oils.
Ceteareth-20 can be used alone or best combined with other emulsifiers to help stabilise the emulsion.

USAGE AREAS:

-Moisture Cream
-Moisture Lotion
-Body Butter
-Cleanser
-Face Mask
-Skin Peels
-Shower Gel
-Shampoo
-Conditioner

Ceteareth-20 is a penetration enhancer which alters the skin structure, allowing substances to penetrate deeper into the skin
Ceteareth is a fatty alcohol which is made from Cetearyl Alcohol (a combination of cetyl and stearyl alcohol) and ethylene oxide.

Ceteareth-20 is also known to be the polyethylene glycol ether of Cetearyl Alcohol.
These compounds are nonionic surfactants which attract both water and oil at the same time.

Ceteareth-20 usually acts as an emollient and emulsifying agent in many skin care and hair care formulations.
Ceteareth-20 is formulated in combination with fatty acids and other alcohols to add thickness to the formulation

Ceteareth-20 also helps other active ingredients dissolve in the solvent.
Ceteareth-20 is odourless and can be mixed with natural as well as synthetic oils.

Ceteareth-20 is a chemical compound which is made by combining Cetearyl Alcohol and ethylene oxide.
Ceteareth-20 is commonly used as an emollient in many skin care products which help to make your skin soft, supple and smooth.

Ceteareth-20 acts as an emulsifier in the skincare formulation.
An emulsifier is required in the formulation which contains both water and oil.
When water and oil are mixed together, it gets separated and the oil forms a thin film on the surface.

In the skincare products, in which oil is added to the water-based formula, it helps in binding the water and oil together and gives stability to the product.
Ceteareth-20 is compatible with a wide variety of oils and is soluble in water and isopropyl alcohol.
Ceteareth-20 acts as an excellent surfactant which helps to reduce the surface tension of the substances to be emulsified and helps to cleanse your skin thoroughly by allowing water to mix with oil and grime so that it could be washed away while rinsing.

Ceteareth-20 works with other alcohols and fatty acids to add viscosity to the formulation and helps other active ingredients to dissolve in the solvent.
Ceteareth-20 acts as a nonionic stabilizer in oil and in water emulsions.


PHYSICAL PROPERTIES:

-Molecular Weight: 1123.5 g/mol

-XLogP3: 4.5

-Exact Mass: 1122.78526064 g/mol

-Monoisotopic Mass: 1122.78526064 g/mol

-Topological Polar Surface Area: 205Ų

-Physical Description: White Solid

-Color: White

-Form: Solid

-Melting Point: 47-50°C


The emollient property of Ceteareth-20 helps to add moisture to hair and makes the hair look silky, shiny and well hydrated.
Ceteareth-20 makes scalp healthy by keeping it hydrated, thereby preventing dry and itchy scalp.
Ceteareth-20 is hydrophilic in nature, thereby attracts water molecules and helps retain moisture, thereby keeping your strands well hydrated.

Ceteareth-20 also acts as an excellent surfactant in cosmetic products.
As a surfactant, Ceteareth-20 helps to lower the surface tension between liquid and liquid or liquid and solid.


CHEMICAL PROPERTIES:

-Hydrogen Bond Donor Count: 1

-Hydrogen Bond Acceptor Count: 21

-Rotatable Bond Count: 74

-Heavy Atom Count: 77

-Formal Charge: 0

-Complexity: 999

-Isotope Atom Count: 0

-Defined Atom Stereocenter Count: 0

-Undefined Atom Stereocenter Count: 0

-Defined Bond Stereocenter Count: 0

-Undefined Bond Stereocenter Count: 0

-Covalently-Bonded Unit Count: 1

-Compound Is Canonicalized: Yes

-Chemical Classes: Other Classes -> Polyoxyethylenes


Ceteareth-20 allows the water molecules to mix with oil and dirt present on the hair and scalp, thus helping to get rid of the residue from your strands while washing.
Most of the surfactants have one hydrophilic end and the other lipophilic end.

As an emulsifier in the hair care formulation, Ceteareth-20 helps to bind water molecules and oil together, giving more stability to the product.
The main function of Ceteareth-20 as an emulsifier is to hold all the active ingredients in the formulation together, especially oil and water in the water-based formula.

Benefits Of Ceteareth-20 :
Ceteareth-20 is a non-ionic polyoxyethylene ether of higher fatty alcohols.
Ceteareth-20 is a white coloured, odourless compound which can be combined with a large variety of oils both natural as well as synthetic.

Ceteareth-20 is a chemical compound which is used extensively in many skincare, hair care and personal care formulations.
Ceteareth-20 is added in most of the cosmetic products not because it is directly beneficial to your skin or hair in any way, but because of its composition and functions.
Due to its incredible properties, Ceteareth-20 has secured a prominent place in the beauty industry.

Ceteareth-20 is considered to be a universal emulsifier which produces o/w emulsion which is known to be compatible with a wide variety of oils.
Ceteareth-20 can be used alone or along with other emulsifiers to help stabilize the formulation.

Ceteareth-20's emollient property helps to keep your skin soft and smooth. It also makes your hair silky and shiny.
Ceteareth-20 adds thickness by increasing the viscosity of the product formula, making your product look rich and creamy.

Ceteareth-20 works best with gel-forming thickeners, hence extensively used in facial serums and hair gels.
Ceteareth-20 acts as a protective colloid which helps to stabilize all kinds of dispersed active ingredients.

Ceteareth-20 acts as a surfactant in your skincare and hair care products.
The main function of a surfactant is to lower the surface tension between 2 liquids or solid-liquid, which allows them to mix together such as water and grime-dirt.
This action is responsible for the cleansing property in your shampoos, conditioners, soaps, skin cleansers, body washes, face washes etc.

Ceteareth-20 is used alone or it can also be used along with other emulsifiers for providing stability to the formulation.
Ceteareth-20 helps to bind all the active ingredients together in your skincare and haircare formulations, thereby making your formula more stable.

As Ceteareth-20 prevents the active ingredients in the formula from separating, it aids in the even application of the products, which helps to enhance the product performance.
The Cetearyl alcohol in the Ceteareth-20 is derived from natural oil (cetyl and stearyl alcohol) which helps to add thickness to the product, providing stability to the product formulation and is responsible for its emollient property.
These are some of the beneficial properties of Ceteareth-20, due to which it is extensively being used in the production of many skincare and hair care products you use daily. It is considered to be a key ingredient in many surfactant-based formulations

USES:
Ceteareth-20 is considered to be a key ingredient in all kinds of emulsion-based products, hence used in many bath products, toiletries and personal care products.
Ceteareth-20 acts as an excellent emulsifier, surfactant and exhibits emollient properties.

Ceteareth-20's emollient property makes it an ideal choice in creams, moisturizing lotions, anti-ageing creams, shampoos, conditions, hair gels and serums.
Due to its emulsifying property, Ceteareth-20 is used in many skincare products such as facial moisturizers, skin cleansers, sunscreens, exfoliators, acne treatment ointments and in many popular hair care products such as shampoos, conditioners, hair sprays, hair dyes.

Ceteareth-20 is very effective in treating various dry skin conditions such as eczema and psoriasis.
Ceteareth-20 is used in the treatment, control and prevention of the various skin conditions such as diaper rashes.

Ceteareth-20 is effectively used in the treatment of skin burns from radiation therapy.
These are some of the best uses of Ceteareth-20.
Ceteareth-20 acts as an excellent emulsifier, surfactant and exhibits emollient properties. This is why it is increasingly being used in major skincare, haircare and personal care products.


SYNONYMS:

CETEARETH-20
PEG-20 CETOSTEARYL ALCOHOL
PEG-20 CETYL/STEARYL ETHER
POLYETHYLENE GLYCOL 1000 CETYL/STEARYL ETHER
POLYOXYETHYLENE (20) CETYL/STEARYL ETHER
Ceteareth-20
Unimul B-1
Emulgin B1
Polyoxyethylene Cetearyl Ether
Ethoxylated Fatty Alcohol
Chemonic CT-20
Jeecol CS-20
Ceterayl Alcohol
Ceteareth-20
Polyoxyethylene Ether of Cetyl-Stearyl Alcohol
(C16-C18) alkyl alcohol ethoxylate
(C16-C18) alkyl alcohol, ethoxylate
(C16-C18) fatty alcohol, ethylene oxide reaction product
alcohols C16-18 ethoxylated (peg-20)
alcohols, C16-18, ethoxylated
aliphatic (C16-C18) alcohol, ethoxylated
brij CS20
ethoxylated C16-18 alcohols
C16-18 alcohols, ethoxylated (20 mol EO average molar ratio)
cetomacrogol 1000 BP
cetomacrogolum
ethoxylated fatty alcohols (C16-18)
hetoxol CS-20
lipocol SC-20
peg-20 cetyl/stearyl ether
polyethylene glycol (20) cetyl/stearyl ether
polyoxyethylene (20) cetyl/stearyl alcohol ether
polyoxyethylene (20) cetyl/stearyl ether
polyoxyl 20 cetostearyl ether
Polyoxyethylene Ether of Cetyl-Stearyl Alcohol
(C16-C18) alkyl alcohol ethoxylate
(C16-C18) alkyl alcohol, ethoxylate
(C16-C18) fatty alcohol, ethylene oxide reaction product
alcohols C16-18 ethoxylated (peg-20)
alcohols, C16-18, ethoxylated
CETEARETH-22
CETEARETH-23, N° CAS : 68439-49-6, Nom INCI : CETEARETH-23, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-23
CETEARETH-24, N° CAS : 68439-49-6, Nom INCI : CETEARETH-24, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-24
Ceteareth-25 [Unicol CS-25]; T/N: Ethal CSA-25; Ceterayl Alcohol and Ceteareth-20; Polyoxyethylene Ether of Cetyl/Stearyl Alcoho cas no:9004-95-9
CETEARETH-25
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is universal emulsifier to make o/w emulsions.
Ceteareth-25 is compatible with all kinds of oils & active ingredients.
Ceteareth-25 is very effective protective colloid that stabilizes all kinds of dispersed systems.


CAS Number: 68439-49-6
EC Number: 500-212-8
Chem/IUPAC Name: C16-18 ALCOHOLS,ETHOXYLATED (25 MOL EO AVERAGE MOLAR RATIO)
Molecular Formula: C18H38O


Ceteareth-25 has a somewhat higher gel-forming and thickening capability than ceteareth-20.
Compared to Ceteareth-20, Ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25's chemical formula is C18H38O.


Ceteareth-25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is white grains/pellets, no odor.
Ceteareth-25 is available as a white, waxy solid.


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
HLB value of Ceteareth-25 is 16 (gives oil-in-water emulsions).
Ceteareth-25 dissolves in water & alcohol, to form a colloid solution.


Ceteareth-25 is a white solid with a waxy consistency.
Ceteareth-25 (CAS 68439-49-6) is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is a non-ionic surfactant.


The solidification point of Ceteareth-25 is about 40°C.
Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25 water-oil binder It is designed to focus on the work of creating thickening formulas.


Ceteareth-25 forms a colloid solution in water and alcohol.
Ceteareth-25 is an universal emulsifier to make o/w emulsions.
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
HLB value of Ceteareth-25 is 16 (gives oil-in-water emulsions).
Ceteareth-25 can be combined with other emulsifiers.


Ceteareth-25 is compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25 is white grains / pellets, odorless.
Non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


Ceteareth-25 is white grains/pellets, no odor.
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl / stearyl alcohol).


Ceteareth-25 is dissolves in water & alcohol to form a colloid solution.
HLB value of Ceteareth-25 is 16.27 (gives oil-in-water emulsions).
Ceteareth-25 is fatty alcohol that functions as an emulsifier and surfactant.


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is a nonionic surfactant prepared from cetyl-stearyl alcohol and 20 moles of ethylene oxide.
Ceteareth-25 can be mixed with mineral, vegetable or synthetic fats and oils.


Ceteareth-25 is compatible with all kinds of oils & active ingredients.
Ceteareth-25 is very effective protective colloid that stabilizes all kinds of dispersed systems.
Ceteareth 25 (or ceteareth-25) is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


Ceteareth-25 may be plant or animal derived
Ceteareth-25 helps keep ingredients soluble within a formula.
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioner.


Ceteareth-25 acts like a gel-maker, creating a gel texture.
Ceteareth 25 is a high HLB emulsifier used in oil in water emulsions.
Ceteareth-25rovides exceptionally stable emulsions.


Ceteareth-25 is a polyethylene glycol ether of cetyl/stearyl alcohol.
Ceteareth-25 has white flakes with no odor.
Similar to ceteareth-20, only thing it has slightly more gel-forming potential than ceteareth-20.


Ceteareth-25 is prepared by the ethoxylation of fatty alcohol mixtures with ethylene oxide.
Ceteareth-25 is a substance that creates meat and gives meat.
Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.


Ceteareth-25 dissolves in water and alcohol to form a colloidal solution.
Ceteareth-25 is soluble in vegetable oils and esters.
Ceteareth-25 is a safe and stable product.


Ceteareth-25 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 can be added both in the aqueous phase and in the fat phase and is stable in a wide range of pH, in the presence of electrolytes and powders and insoluble substances.


Ceteareth-25 may be plant or animal-derived or made synthetically.
Ceteareth-25 is mixed with mineral, vegetable and synthetic fats and oils.
Original raw materials from which Ceteareth-25 is obtained: Vegetable oils and ethylene oxide.


Ceteareth-25 contains no preservatives, is biodegradable and meets the requirements of the cosmetics directive.
In addition to its emulsifying properties, ceteareth-25 also has a number of other benefits.
Ceteareth-25 can act as a thickening agent, helping to give products a desired consistency.


Ceteareth-25 can also help to improve the spreadability and glide of products, making them easier to apply.
Ceteareth-25 is water and oil-soluble.
Ceteareth-25 works in a Wide Ph Range.


Therefore, Ceteareth-25 is an important emulsifier in hot processes.
Ceteareth-25 dissolves in water & alcohol to form a colloid solution.
Ceteareth-25 can be mixed with mineral, vegetable or synthetic fats and oils.


Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth-25 may be plant- or animal-derived or made synthetically.
Ceteareth-25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


Ceteareth-25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
They are odorless white grains/pellets.
They dissolve in water and alcohol, giving a colloidal solution.


Ceteareth-25 is a Universal, non-ionic O/W emulsifier. Ceteareth-25 is a hydrophilic emulsifier with stabilizing and viscosifying properties, stable over a wide pH range and in the presence of high levels of electrolytes.
Ceteareth-25 has a low usage concentration of 2.0%.


Ceteareth-25 is an O/W ethoxylated non-ionic emulsifier, produced by the reaction of fatty alcohols with ethylene oxide.
Ceteareth-25 has stability at high temperatures and good freeze/thaw stability.
Ceteareth-25 is compatible with all kinds of cosmetic oils and active ingredients.


Ceteareth-25 is white solid with waxy consistency, slight, distinct odour, good solubility in hot water, sensitive to pH changes (stable at low pH, hydrolysed at high pH).
Ceteareth-25 forms a colloid solution in water and alcohol.
Ceteareth-25 is a surfactant made from cetearyl alcohol, which can be derived from animals (not used by ecostore), synthetically produced, or made from plants oils such as coconut and palm.


The '25' in the name refers to the number of ethylene oxide units in the molecule.
Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth-25 is non-ionic polyoxyethylene ester of higher saturated fatty alcohols.


Ceteareth-25 is a white, waxy, odorless solid with a melting point of 45.5 - 47.5 & deg; C.
Ceteareth-25 is an universal emulsifier to make o/w emulsions.
Ceteareth-25 dissolves in water and alcohol and forms a sticky solution


Ceteareth-25 is stable when stored in a closed container protected from light, in a cool dry place.
Ceteareth-25 is compatible with all oils and active ingredients.
Ceteareth-25 is very effective in stabilizing dispersions, it can be combined with other emulsifiers.


Ceteareth-25 has thickening properties and can give gel.
Ceteareth-25 is a nonionic polyoxyethylated ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is a non-ionic surfactant (INCI: Ceteareth-25).


Ceteareth-25 is a white solid with a waxy consistency.
The solidification point of Ceteareth-25 is about 40°C.
Ceteareth-25 Can be mixed with mineral, vegetable or synthetic fats and oils.


Ceteareth-25 is a safe and stable product.
Ceteareth-25 contains no preservatives, is biodegradable and meets the requirements of the cosmetics directive.
Ceteareth-25 adds body to creams and lotions.


Ceteareth-25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
HLB value of Ceteareth-25 is 16 (gives oil-in-water emulsions).
Typical use level of Ceteareth-25 is 0.5-3% (up to 30% to make gel-like hydrates).


HLB value of Ceteareth-25 is 16 (gives oil-in-water emulsions).
Ceteareth-25 can be combined with other emulsifiers.
Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties.


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 dissolves in water & alcohol, to form a colloid solution.
Ceteareth-25 is available as a white, waxy solid.


Compared to Ceteareth-20, Ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25's chemical formula is C18H38O.
Ceteareth-25 is prepared by the ethoxylation of fatty alcohol mixtures with ethylene oxide.


Ceteareth-25 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Ceteareth-25 can be mixed with mineral, vegetable or synthetic fats and oils.
Ceteareth-25 is a non-ionic surfactant.


The INCI names ceteareth-n (where n is a number) refer to polyoxyethylene ethers of a mixture of high molecular mass saturated fatty alcohols, mainly cetyl alcohol (m = 15) and stearyl alcohol (m = 17).
The number n indicates the average number of ethylene oxide residues in the polyoxyethylene chain.
These compounds are non-ionic surfactants that work by attracting both water and oil at the same time, frequently used as emulsifiers in soaps and cosmetics.


Ceteareth compounds are fatty alcohols made from a mixture of cetearyl alcohol and ethylene oxide.
The number in the ingredient name refers to the number of ethylene oxide molecules.
The ingredient is mostly used as an emollient and emulsifier, as well as a mixing and thickening agent in cosmetics.


There is some controversy as to how safe the ingredient is.
"Ceteareth-" refers to a PEG (polyethylene glycol) ether of cetearyl alcohol.
The number after "ceteareth-" indicates the average number of molecular units -CH2-CH2-O-.


Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids.


In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.


The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.
Cetaret-2 to -18 and Cetaret-22 help form emulsions by reducing the surface tension of substances to be emulsified.


Ceteareth-22 is also used to thin liquid cosmetics and personal care products.
Ceteareth-20 to -40 helps other ingredients to dissolve in a solvent they would normally not dissolve in and together with Ceteareths-50 to -100 cleanses the skin and hair by helping water mix with oil and dirt so these substances can be washed off.


List of ceteareth compounds:
Ceteareth-2
Ceteareth-3
Ceteareth-4
Ceteareth-5
Ceteareth-6
Ceteareth-7
Ceteareth-8
Ceteareth-9
Ceteareth-10
Ceteareth-11
Ceteareth-12
Ceteareth-13
Ceteareth-15
Ceteareth-16
Ceteareth-17
Ceteareth-18
Ceteareth-20
Ceteareth-22
Ceteareth-23
Ceteareth-25
Ceteareth-27
Ceteareth-28
Ceteareth-29
Ceteareth-30
Ceteareth-33
Ceteareth-34
Ceteareth-40
Ceteareth-50
Ceteareth-55
Ceteareth-60
Ceteareth-80
Ceteareth-100



USES and APPLICATIONS of CETEARETH-25:
Ceteareth-25 is used primarily as an emollient, emulsifier and solubilized.
very effective protective colloid that stabilizes all kinds of dispersed systems, can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Ceteareth-25 is usually used in combination with other compounds (alcohols and fatty acids), acting as an aid in dissolving the remaining ingredients of the formulation.


Ceteareth-25 can be used alone to form clear colloidal gels or with waxy consistency factors for O/W emulsions.
Ceteareth-25 due to the high degree of ethoxylation of cetostearyl alcohol shows a strong hydrophilic character, which is why it is perfect for creating stable oil-in-water emulsions (O / W).


Ceteareth-25 can be used to make Creams, lotions (particularly sprayable lotions), foundations, hair conditioners, and sunscreen.
Ceteareth-25 forms particularly stable emulsions in combination with other emulsifiers, such as e.g. glyceryl stearate.
Due to the excellent emulsifying properties of Ceteareth-25, it can be used in the preparation of emulsions at room temperature.


This is particularly important when using active substances sensitive to high temperatures, which are a common component of emulsions.
Ceteareth-25 is commonly used in recipes that require the meat to have a paste (paste - Thai meaning - semi-liquid/solid nature), that looks like a wet powder) such as Body Mask, Hair Wax, Pomade, and Sleeping Mask.


Ceteareth-25 is frequently used in all kinds of emulsion-based cosmetic products such as creams, lotions, especially sprayable lotions, foundations, hair creams, sunscreen products.
Ceteareth-25 is effective protective colloid (a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance) that stabilizes all kinds of dispersed systems.


Ceteareth-25 acts as an emulsifier and thickener in products.bbp
Ceteareth-25 is compatible with all types of oils and active ingredients.
Ceteareth 25 has better thickening properties of ceteareth 20.


Ceteareth-25 can be used in high or low pH (~4.5-8.5), forms stable emulsion with all commonly used oils and fats in skin care preparation.
Ceteareth-25 is ideal for application in cream and lotion for facial, body and hair care.
Ceteareth-25 can also be used as a secondary emulsifier to provide emulsion stability and is capable of emulsifying hydrophobic pharmaceutical actives ensuring very stable emulsions.


Ceteareth-25 is used for the production of ointments, creams, liquid emulsions, gels.
Ceteareth-25 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant in personal care.
Ceteareth-25 grades are oil-in-water emulsifiers and are used for the production of ointments, creams, liquid emulsions, gels and other cosmetic preparations.


Ceteareth-25 can be used for oils with a wide range of polarities. Ceteareth-25 is used creams and lotions can be produced without problems.
Ceteareth-25 also finds use in creating microemulsions and as an emulsifier in perfumes.
Ceteareth-25 works in a Wide Ph Range.


Ceteareth-25 is one of the most widely used conditioning agents and emollients in cleansing and skincare cosmetics.
Ceteareth-25 is used universal emulsifier to make o/w emulsions.
Ceteareth-25 is used optimal use with gel-forming thickeners.


Emollients are substances that soften and moisturize the skin and reduce itching and flaking.
Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth-25 may be plant- or animal-derived or made synthetically.


Ceteareth-25 is a very efficient protective colloid and can increase the stability of dispersed systems.
In concentrations of 21-30%, Ceteareth-25 forms gel-like, brushable hydrates with water.
Ceteareth-25 is used in skin and hair care preparations, it creates an occlusive layer (film) on the surface.


Ceteareth-25 is a derivative based on renewable vegetable raw materials and is used mainly in cosmetic and detergent applications.
Ceteareth-25 is used as an emulsifier in oil/water emulsions.
Ceteareth-25 prevents excessive evaporation of water from the surface (an indirect moisturizing effect), which ensures softening and smoothing of the skin and hair.


Ceteareth-25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
Ceteareth-25 reduces the drying effect of anionic surfactants, leaving the skin surface moisturized and covered with a protective layer.
If Ceteareth-25 is used together with cetyl or stearyl alcohol or both,homogeneous ointment and cream bases are obtained that can absorb as much as 90% water.


Ceteareth-25 also acts as a modifier of rheological properties, i.e. it improves the consistency of creams, lotions, hair conditioners, etc., ensuring an increase in viscosity.
Ceteareth-25 is used for external use only.
Ceteareth-25 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.


Ceteareth-25 acts like a gel-maker, creating a gel texture.
Therefore, Ceteareth-25 is commonly used in recipes that require the meat to look like paste (paste - Thai meaning - semi-liquid / solid. that looks like a wet powder) such as Body Mask, Hair Wax, Pomade, Sleeping Mask
In addition, Ceteareth-25 influences the application properties of the formulation, by improving its distribution and lubrication.


In the detergent industry, Ceteareth-25 works great as the main ingredient of toilet blocks, also those that do not require plastic hangers.
Ceteareth-25 forms particularly stable emulsions in combination with other emulsifiers, such as e.g. glyceryl stearate.
Due to the excellent emulsifying properties of Ceteareth-25, it can be used in the preparation of emulsions at room temperature.


This is particularly important when using active substances sensitive to high temperatures, which are a common component of emulsions.
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioners.
Ceteareth-25 isused in skin care creams as well as lotions, microemulsion gels, hair relaxers, perms, depilatories, antiperspirants, shaving products, color cosmetics, feet, hands as well as nails, styling, relaxing/permanent waves, roll on, other (cream) and face.


Ceteareth-25’s also used in cosmetics and personal care products such as lotions and creams.
There is no distinct odour.
Ceteareth-25 is widely used in the cosmetics industry.


Ceteareth-25 is especially used as an emulsifier in Hair Creams, Personal Care Products, Skin Care and Face Care Creams and Lotions.
Ceteareth-25 is used great for sprayable lotions, foundations & hair conditioners.
Ceteareth-25 is used hair pomade, cream, lotion, foundation, sunscreen, etc.


Ceteareth-25 acts as a dispersing agent, o/w co-emulsifier and wetting agent.
Ceteareth-25 is compatible with all kinds of oils and active ingredients.
Ceteareth-25 is used in skin and hair care preparations, it creates an occlusive layer (film) on the surface.


Ceteareth-25 prevents excessive evaporation of water from the surface (an indirect moisturizing effect), which ensures softening and smoothing of the skin and hair.
Ceteareth-25 reduces the drying effect of anionic surfactants, leaving the skin surface moisturized and covered with a protective layer.
In the detergent industry, Ceteareth-25 works great as the main ingredient of toilet blocks, also those that do not require plastic hangers.


In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Therefore, Ceteareth-25 is an important emulsifier in hot processes.


Typical use level of Ceteareth-25 is 0.5-3% (up to 30% to make gel-like hydrates).
Ceteareth-25 is a common ingredient in hair products such as pomades and conditioner.
Ceteareth-25 is effective protective colloid (a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance) that stabilizes all kinds of dispersed systems.


Ceteareth-25 is used optimal use with gel-forming thickeners.
Ceteareth-25 is widely used in creams and lotions, foundation and sunscreens.
Ceteareth-25 also acts as a modifier of rheological properties, i.e. it improves the consistency of creams, lotions, hair conditioners, etc., ensuring an increase in viscosity.


In addition, Ceteareth-25 influences the application properties of the formulation, by improving its distribution and lubrication.
Ceteareth-25 is a non-ionic surfactant specifically designed for the manufacture of cosmetics and personal care products.
Ceteareth-25 is used universal emulsifier to make o/w emulsions.


Ceteareth-25 is one of several ceteareths deemed safe as used in cosmetics.
Concentration ranges from 1.3–10% depending on the type of formula and desired aesthetics; lower amounts may also be used, especially if Ceteareth-25 is part of a blend.
Ceteareth-25 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.


Emulsifier used to form o/w emulsions, suitable with all types of oils and actives, Can be coupled with other emulsifiers and gel-forming thickeners.
Ceteareth-25 has a somewhat higher gel-forming and thickening capability than ceteareth-20.
In cosmetics and personal care products, Ceteareth-25 is used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.


Typical use level of Ceteareth-25 is 0.5-3% (up to 30% to make gel-like hydrates).
Ceteareth-25 is one of the most widely used conditioning agents and emollients in cleansing and skincare cosmetics.
Emollients are substances that soften and moisturize the skin and reduce itching and flaking.


Ceteareth-25 is great for sprayable lotions, foundations & hair conditioners.
Ceteareth-25 is compatible with all kinds of oils and active ingredients.
Ceteareth-25’s also used in cosmetics and personal care products such as lotions, creams, and sunscreen.


Ceteareth-25 is used surfactant for cosmetic use.
Ceteareth-25 can be used to create a clear gel texture. (In case the formula does not contain oil) by creating a weighty gel texture. Unlike other gel-forming agents that creates a light gel texture like a weightless water gel.


Ceteareth-25 is emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients.
Ceteareth-25 is used for external use only.
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioners.


Ceteareth-25’s also used in cosmetics and personal care products such as lotions and creams.
There is no distinct odour.
Ceteareth-25 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.


Ceteareth-25 may also be used for purposes not listed in this medication guide.
Ceteareth-25 is used for the treatment, control, prevention, & improvement of the following diseases, conditions and symptoms.
Ceteareth-25 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant in personal care.


Ceteareth-25 is used primarily as an emollient, emulsifier and solubilized.
Ceteareth-25 is usually used in combination with other compounds (alcohols and fatty acids), acting as an aid in dissolving the remaining ingredients of the formulation.
Optimal use of Ceteareth-25 is with gel-forming thickeners


Ceteareth-25 helps other ingredients to dissolve in a solvent in which they would not normally dissolve and cleans the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.
Ceteareth-25 is used as a nonionic emulsifier suitable for the making O/W emulsion.


Ceteareth-25 water-oil binder It is designed to focus on the work of creating thickening formulas.
Ceteareth-25 is an oil-in-water emulsifier, which helps to stabilize the emulsion system commonly found in the composition of cosmetic lines.
Ceteareth-25 is used as a cleaning agent and emulsifier in various cosmetics, but it also has a viscosity-increasing function, i.e.


Ceteareth-25 improves the consistency of creams, makes them more creamy, and more difficult to flow.
Ceteareth-25 is used for Dry skin and other conditions.
In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, tanning and tanning products, and hair dyes, paints and shades.


Ceteareth-25 is compatible with emulsifiers and cationic polymers.
Ceteareth-25 is a universally applicable non-ionic emulsifier for oil-in-water emulsions, pharmaceutical preparations and clear gels.
Ceteareth-25 acts like a gel-maker, creating a gel texture.


Ceteareth-25 can be used in emulsions with low pH, in the presence of high concentrations of electrolytes and in phase inversion emulsions (PIT).
Ceteareth-25 is commonly used in recipes that require the meat to have a paste (paste - Thai meaning - semi-liquid/solid nature) that looks like a wet powder) such as Body Mask, Hair Wax, Pomade, Sleeping Mask.


Ceteareth-25 due to the high degree of ethoxylation of cetostearyl alcohol shows a strong hydrophilic character, which is why it is perfect for creating stable oil-in-water emulsions (O / W).
Ceteareth-25 is to create meat to make the meat formula weighty but not greasy.


Ceteareth-25 can be used in any type of O/W cosmetic emulsion, such as creams and lotions (especially sprayables) for the face and body, deodorants and antiperspirants, foundations, hair conditioners and products with SPF.
Ceteareth-25 can be used to create a clear gel texture (In case the formula does not contain oil) by creating a weighty gel texture.


Unlike other gel-forming agents Ceteareth-25 creates a light gel texture like a weightless water gel
Ceteareth-25 is widely used in creams and lotions, foundation and sunscreens.
Ceteareth-25 is used to produce phase inversion hyperfluid emulsions.


Ceteareth-25 can be used in all recipes that want to add weight to meat.
Ceteareth-25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.


Ceteareth-25 is an important emulsifier in emulsifying oil phases.
Ceteareth-25’s also used in cosmetics and personal care products such as lotions, creams, and sunscreen.
Ceteareth 25 is used as emulsifying agent for the production of creams, liquids emulsions, gels and other cosmetic and pharmaceutical preparations.


Ceteareth-25 is used as an emulsifier in cosmetic products and especially in skin care products, lotions, creams and sun care creams.
Ceteareth-25 is used to form o/w emulsions, suitable with all types of oils and actives.
Ceteareth-25 can be coupled with other emulsifiers and gel-forming thickeners.


Ceteareth-25 can be used to make Creams, lotions (particularly sprayable lotions), foundations, hair conditioners, and sunscreen.
Ceteareth-25 is a type of emulsifying wax that is commonly used in the cosmetics and personal care industry.
Ceteareth-25 is used Creams, lotions, shampoos, conditioners, and makeup.


Ceteareth-25 is widely used in the cosmetics industry.
It is especially used as an emulsifier in Hair Creams, Personal Care Products, Skin Care and Face Care Creams and Lotions.
Ceteareth-25 also finds use in creating microemulsions and as an emulsifier in perfumes.


Ceteareth-25 is one of several ceteareths deemed safe as used in cosmetics.
Ceteareth-25 is usually used in concentrations between 0.5-3% (up to 30% to obtain gel-like hydrates).
Ceteareth-25 is used for all types of emulsion cosmetic products: creams, lotions (especially spray lotions), foundations, hair conditioners, sunscreen preparations.


Concentration ranges from 1.3–10% depending on the type of formula and desired aesthetics; lower amounts may also be used, especially if ceteareth-25 is part of a blend.
Ceteareth-25 is used as an emulsifier in o / w preparations.
Ceteareth-25 is used in creams, lotions, sunscreens and conditioners.


Ceteareth-25 has optimal use with gel-forming thickeners.
Ceteareth-25 is used as an emulsifier in oil/water emulsions.
Ceteareth-25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.


Ceteareth-25 is a derivative based on renewable vegetable raw materials and is used mainly in cosmetic and detergent applications.
Ceteareth-25 is used for external use only.
Ceteareth-25 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.


-Ceteareth-25 is used as emulsifier:
Due to Ceteareth-25's strong hydrophilic nature, Ceteareth-25 is perfect for creating oil-in-water emulsions.
Due to its very good emulsifying properties, Ceteareth-25 can be used for the preparation of emulsions at room temperature


-Applications of Ceteareth-25:
*shampoos, conditioners, serums, hair masks,
*hair colour products,
*hair gels,
*creams for hands, feet, body,
*eye creams,
*anti-wrinkle creams,
*sunscreens,
*after shave creams,
*self-tanning products,


-Applications of Ceteareth-25:
*balms, lotions (including for children),
*preparations for washing face and body,
*anti-acne preparations,
*make-up base, foundation,
*mascaras, eyeliners,
*make-up removers,
*depilatory preparations,
*detergents – toilet blocks.


-As surfactant:
Ceteareth-25 effectively removes impurities and dirt from the surface of the skin and hair.
The particles of Ceteareth-25 surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth-25 is also an effective foaming agent.
In addition, Ceteareth-25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants


-Ceteareth-25 is used as solubilized:
Ceteareth-25 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances.
Ceteareth-25 has a strong softening, moisturizing and conditioning effect.
Ceteareth-25 reduces the itching and peeling of skin.
Ceteareth-25 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water


-As emulsifier:
Due to its strong hydrophilic nature, Ceteareth-25 is perfect for creating oil-in-water emulsions.
Due to its very good emulsifying properties, Ceteareth-25 can be used for the preparation of emulsions at room temperature


-Applications of Ceteareth-25:
*shampoos, conditioners, serums, hair masks,
*hair colour products,
*hair gels,
*creams for hands, feet, body,
*eye creams,
*anti-wrinkle creams,
*sunscreens,
*after shave creams,
*self-tanning products,
*balms, lotions (including for children),
*preparations for washing face and body,
*anti-acne preparations,


-Ceteareth-25 is used as surfactant:
Ceteareth-25 effectively removes impurities and dirt from the surface of the skin and hair.
The particles of Ceteareth-25 surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth-25 is also an effective foaming agent.
In addition, Ceteareth-25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants


-Applications of Ceteareth-25:
*make-up base, foundation,
*mascaras, eyeliners,
*make-up removers,
*depilatory preparations,
*detergents – toilet blocks.
*Polyethers/Alkoxylates
*Alkoxylated Alcohol
*Agriculture
*Metal Working & Lubricants
*Personal Care
*Specialty Markets; Emulsifier


-As solubilized:
Ceteareth-25 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances.
Ceteareth-25 has a strong softening, moisturizing and conditioning effect.
Ceteareth-25 reduces the itching and peeling of skin.
Ceteareth-25 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water


-Cosmetic Uses of Ceteareth-25:
*cleansing agents
*surfactants
*surfactant - emulsifying



SAFETY PROFILE OF CETEARETH-25:
Ceteareth-25 is considered to be safe for use in cosmetics when used at a concentration of 0.5-30%.



WHAT DOES CETEARETH-25 DO IN A FORMULATIONdo in a formulation?
*Cleansing
*Emulsifying
*Foaming
*Surfactant



BENEFITS OF CETEARETH-25:
*Ceteareth-25 is universal emulsifier to make o/w emulsions
*Ceteareth-25 is compatible with all kinds of oils & active ingredients
*Ceteareth-25 is very effective protective colloid that stabilizes all kinds of dispersed systems
*Ceteareth-25 can be combined with other emulsifiers
*Optimal use with gel-forming thickeners
*Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties



ADVANTAGES OF CETEARETH-25:
*effective emollient and conditioning agent in cosmetics for washing and care of skin and hair,
*modifier of rheological properties (improves the consistency of preparations),
*oil-in-water (O / W) emulsion stabilizer,
*safe product, does not cause allergic reactions,
*based on renewable vegetable raw materials.



SOLUBILITY OF CETEARETH-25:
Ceteareth-25 dissolves in water and alcohol to form either a colloid or a clear solution.
They are soluble in vegetable and mineral fats and oils.



MISCIBILITY OF CETEARETH-25:
The warm emulsifiers can be mixed with mineral, vegetable, and synthetic fats and oils, as well as with fatty alcohols, fatty acids, mono- and di-stearates, and with polyethylene glycols.



WHY IS CETEARETH-25 USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



RESISTANCE TO ELECTROLYTES OF CETEARETH-25:
In aqueous solution, Ceteareth-25 is largely resistant to acids, bases and salts.
The presence of these electrolytes does not impair the product’s efficiency as emulsifying agent.



ADVANTAGES OF CETEARETH-25:
*effective emollient and conditioning agent in cosmetics for washing and care of skin and hair,
*modifier of rheological properties (improves the consistency of preparations),
*oil-in-water (O / W) emulsion stabilizer,
*safe product, does not cause allergic reactions,
*based on renewable vegetable raw materials.



BENEFITS OF CETEARETH-25:
*Universal emulsifier to make o/w emulsions
*Compatible with all kinds of oils & active ingredients
*Very effective protective colloid that stabilizes all kinds of dispersed systems
*Can be combined with other emulsifiers
*Optimal use with gel-forming thickeners
*Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties



CETEARETH-25 AT A GLANCE:
*Fatty alcohol that functions as an emulsifier and surfactant
*May be plant or animal derived
*Helps keep ingredients soluble within a formula
*Adds body to creams and lotions



HOW TO USE CETEARETH-25 IN DIFFERENT FORMULATIONS:
1. Water formula, clear gel, using Ceteareth-25 To thicken and thicken the meat: please reheat.
2. Cream formula (water/oil) using Ceteareth-25 To thicken and thicken the meat: please reheat.
Ceteareth-25 mixed with parts of oil Heat at least 55-60 degrees, but adhere to the high temperature required according to the Cream Maker in the recipe blended with a portion of water will have a creamy texture



HOW CETEARETH-25 IS CLASSIFIED:
*Emulsifiers
*Texture Enhancer



WHAT DOES CETEARETH-25 DO IN A FORMULATION?
*Cleansing
*Emulsifying
*Foaming
*Surfactant



FEATURES OF CETEARETH-25:
*Universal emulsifier for making U/W emulsions.
*Compatible with all types of oils and active ingredients, a highly effective protective colloid that stabilizes all types of dispersion systems.
*Ceteareth-25 can be combined with other emulsifiers.
*Ceteareth-25 is optimal to combine it with gelling thickeners.
*Ceteareth-25 compared to cetearet-20, cetearet-25 has slightly more pronounced gelling and thickening properties.



HOW TO USE CETEARETH-25 IN DIFFERENT FORMULATIONS:
1. Water formula, clear gel, using Ceteareth-25 To thicken and thicken the meat: please reheat.
Ceteareth-25 mixed with water, heat 55-60 degrees, blend well. when it cools down will have a weighty gel texture

2. Cream formula (water/oil) using Ceteareth-25 To thicken and thicken the meat: please reheat.
Ceteareth-25 mixed with parts of oil Heat at least 55-60 degrees, but adhere to the high temperature required according to the Cream Maker in the recipe blended with a portion of water will have a creamy texture



FUNCTIONS OF CETEARETH-25:
Universal emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients, very effective protective colloid that stabilizes all kinds of dispersed systems, can be combined with other emulsifiers, optimal use with gel-forming thickeners.



CETEARETH-25'S FUNCTIONS:
*Cleaning agent:
Ceteareth-25 helps keep a surface clean
*Emulsifying agent:
Ceteareth-25 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Ceteareth-25 reduces the surface tension of cosmetics and contributes to the even distribution of the product during use with mineral, vegetable or synthetic fats and oils.
HLB value of Ceteareth-25 is 16.27 (gives oil-in-water emulsions).



BENEFITS OF CETEARETH-25:
- Universal emulsifier to make o/w emulsions
- Compatible with all kinds of oils & active ingredients
- Very effective protective colloid that stabilizes all kinds of dispersed systems
- Can be combined with other emulsifiers
- Optimal use with gel-forming thickeners
- Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties



FUNCTIONS OF CETEARETH-25:
*Emulsifying Agent:
Universal emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients, very effective protective colloid that stabilizes all kinds of dispersed systems, can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Used as emulsifier, levelling agent, penetrating agent, additive, foaming agent, stabilizerlubricant, solubilizing agent, softening agent, antistatic agent, dispersing agent, parting agent, degreasing agent, plasticizing agent, thickening agent, viscosity conditioning agent etc.

*Cleaning agent:
Helps keep a surface clean
*Emulsifying agent:
Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)

*Surfactant:
Reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
*Non ionic emulsifier in all o/w emulsions;
Solid gel thickener in water based clear hair pomade.



WHAT IS CETEARETH?
Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids.
In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.



WHY IS CETEARETH USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified. Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



SCIENTIFIC FACTS OF CETEARETH:
Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.



PHYSICAL and CHEMICAL PROPERTIES of CETEARETH-25:
Appearance at 25C/50: Waxy flakes
PH of 5% Soin in Dist Water: 6.00 – 8.0
Odour: Mild characteristic
Solubility in DW (5%): Soluble
Cloud Point °C (1% in water): 75 – 80
Moisture, % by weight: 1.0 max
Hydroxyl Value, mg KOH/g: 35 - 45
Solidification Point, °C: 40 – 46
Melting Point: 40-46°C
Solubility: Soluble in water and alcohol
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Appearance at 25°C: White flakes
Color, Pt-Co: ≤30
Cloud Point(1% aque. solu), °C: 76.0-78.0
water, % m/m: ≤1
PH(1% aque. solu): 5.0~7.0



FIRST AID MEASURES of CETEARETH-25:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARETH-25:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up dry.
Dispose of properly.



FIRE FIGHTING MEASURES of CETEARETH-25:
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARETH-25:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CETEARETH-25:
-Conditions for safe storage, including any incompatibilities
*Storage conditions
Tightly closed.
Dry



STABILITY and REACTIVITY of CETEARETH-25:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available



SYNONYMS:
C16-18 alcohols, ethoxylated
Polyoxyethylene glycol ether of cetearyl alcohol
PEG-18 Cetearyl alcohol
Polyoxy Cetearyl Alcohol
cetearyl alcohol
ethoxylated, polyoxyethylene ether of cetyl-stearyl alcohol
polyethylene glycol cetostearyl ether
R(OCH2CH2)nOH
PEG-25 Cetyl/Stearyl Ether
Polyethylene Glycol (25) Cetyl/Stearyl Ether
Polyoxyethylene (25) Cetyl/Stearyl Ether
Ceteareth-25 [Unicol CS-25]
T/N: Ethal CSA-25
Ceterayl Alcohol and Ceteareth-20
Polyoxyethylene Ether of Cetyl/Stearyl Alcohol
Cremophor A 25
Poe(25) Cetyl/stearylether
Poe(25) Hexadecyl/stearyl-Ether
Polyoxyethylen(25)cetyl-Stearylether
Polyoxyethylen(25) Hexadecylstearylether
C16-18 alcohols, ethoxylated
Polyoxyethylene glycol ether of cetearyl alcohol
PEG-18 Cetearyl alcohol
Polyoxy Cetearyl Alcohol
cetearyl alcohol, ethoxylated
polyoxyethylene ether of cetyl-stearyl alcohol
polyethylene glycol cetostearyl ether
Ceteareth-25
T/N
Ethal CSA-25
Ceterayl Alcohol and Ceteareth-20
Polyoxyethylene Ether of Cetyl/Stearyl Alcohol
Cremophor A 25
Poe(25) Cetyl/stearylether
Poe(25) Hexadecyl/stearyl-Ether
Polyoxyethylen(25)cetyl-Stearylether
Polyoxyethylen(25) Hexadecylstearylether

CETEARETH-25
CETEARETH-25 = PEG-18 CETEARYL ALCOHOL = C16-18 ALCOHOLS,ETHOXYLATED


CAS Number: 68439-49-6
EC Number: 500-212-8
Chem/IUPAC Name: C16-18 ALCOHOLS,ETHOXYLATED (25 MOL EO AVERAGE MOLAR RATIO)
Molecular Formula: C18H38O


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is available as a white, waxy solid.
Compared to Ceteareth-20, Ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25's chemical formula is C18H38O.


Ceteareth-25 is prepared by the ethoxylation of fatty alcohol mixtures with ethylene oxide.
Ceteareth-25 is a non-ionic surfactant.
Ceteareth-25 is a white solid with a waxy consistency.
The solidification point of Ceteareth-25 is about 40°C.


Ceteareth-25 is a safe and stable product.
Ceteareth-25 contains no preservatives, is biodegradable and meets the requirements of the cosmetics directive.
Ceteareth-25 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


Ceteareth-25 is compatible with all kinds of oils & active ingredients.
Ceteareth-25 is very effective protective colloid that stabilizes all kinds of dispersed systems.
Ceteareth-25 can be combined with other emulsifiers.
Ceteareth-25 is compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties.


Ceteareth-25 has white flakes with no odor
Ceteareth-25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is white grains/pellets, no odor.
Ceteareth-25 dissolves in water & alcohol to form a colloid solution. Ceteareth-25 can be mixed with mineral, vegetable or synthetic fats and oils.


HLB value of Ceteareth-25 is 16.27 (gives oil-in-water emulsions).
Ceteareth-25 is fatty alcohol that functions as an emulsifier and surfactant.
Ceteareth-25 may be plant or animal derived
Ceteareth-25 helps keep ingredients soluble within a formula


Ceteareth-25 adds body to creams and lotions.
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 is a nonionic surfactant prepared from cetyl-stearyl alcohol and 20 moles of ethylene oxide.
Ceteareth-25 Can be mixed with mineral, vegetable or synthetic fats and oils.


Ceteareth-25rovides exceptionally stable emulsions.
Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties.
Ceteareth-25 water-oil binder It is designed to focus on the work of creating thickening formulas.
Ceteareth-25 acts like a gel-maker, creating a gel texture.


Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 dissolves in water & alcohol, to form a colloid solution.
Ceteareth-25 is a non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl / stearyl alcohol).
Ceteareth-25 is white grains / pellets, odorless.


Ceteareth-25 dissolves in water and alcohol to form a colloidal solution.
Ceteareth-25 can be mixed with mineral, vegetable or synthetic fats and oils.
Ceteareth-25 is a non-ionic surfactant.
Ceteareth-25 dissolves in water and alcohol, forming colloidal suspensions.


Ceteareth-25 is soluble in vegetable oils and esters.
Ceteareth-25 can be added both in the aqueous phase and in the fat phase and is stable in a wide range of pH, in the presence of electrolytes and powders and insoluble substances.
Ceteareth-25 is a nonionic polyoxyethylated ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).


They are odorless white grains/pellets.
They dissolve in water and alcohol, giving a colloidal solution.
Ceteareth-25 is mixed with mineral, vegetable and synthetic fats and oils.
Original raw materials from which Ceteareth-25 is obtained: Vegetable oils and ethylene oxide


Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth-25 is non-ionic polyoxyethylene ether of higher saturated fatty alcohols (cetyl/stearyl alcohol).
Ceteareth-25 forms a colloid solution in water and alcohol.


Ceteareth-25 is an universal emulsifier to make o/w emulsions.
Ceteareth-25 is a hydrophilic emulsifier with stabilizing and viscosifying properties, stable over a wide pH range and in the presence of high levels of electrolytes.
Ceteareth-25 is an O/W ethoxylated non-ionic emulsifier, produced by the reaction of fatty alcohols with ethylene oxide.


The INCI names ceteareth-n (where n is a number) refer to polyoxyethylene ethers of a mixture of high molecular mass saturated fatty alcohols, mainly cetyl alcohol (m = 15) and stearyl alcohol (m = 17).
The number n indicates the average number of ethylene oxide residues in the polyoxyethylene chain.
These compounds are non-ionic surfactants that work by attracting both water and oil at the same time, frequently used as emulsifiers in soaps and cosmetics.


Ceteareth compounds are fatty alcohols made from a mixture of cetearyl alcohol and ethylene oxide.
The number in the ingredient name refers to the number of ethylene oxide molecules.
The ingredient is mostly used as an emollient and emulsifier, as well as a mixing and thickening agent in cosmetics.
There is some controversy as to how safe the ingredient is.
"Ceteareth-" refers to a PEG (polyethylene glycol) ether of cetearyl alcohol.
The number after "ceteareth-" indicates the average number of molecular units -CH2-CH2-O-.


Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids.


In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.


Cetaret-2 to -18 and Cetaret-22 help form emulsions by reducing the surface tension of substances to be emulsified.
Ceteareth-22 is also used to thin liquid cosmetics and personal care products.
Ceteareth-20 to -40 helps other ingredients to dissolve in a solvent they would normally not dissolve in and together with Ceteareths-50 to -100 cleanses the skin and hair by helping water mix with oil and dirt so these substances can be washed off.


List of ceteareth compounds
Ceteareth-2
Ceteareth-3
Ceteareth-4
Ceteareth-5
Ceteareth-6
Ceteareth-7
Ceteareth-8
Ceteareth-9
Ceteareth-10
Ceteareth-11
Ceteareth-12
Ceteareth-13
Ceteareth-15
Ceteareth-16
Ceteareth-17
Ceteareth-18
Ceteareth-20
Ceteareth-22
Ceteareth-23
Ceteareth-25
Ceteareth-27
Ceteareth-28
Ceteareth-29
Ceteareth-30
Ceteareth-33
Ceteareth-34
Ceteareth-40
Ceteareth-50
Ceteareth-55
Ceteareth-60
Ceteareth-80
Ceteareth-100



USES and APPLICATIONS of CETEARETH-25:
Ceteareth-25 is used as a solubilizing agent, emulsifier, cleansing agent, and surfactant in personal care.
Ceteareth-25 is a derivative based on renewable vegetable raw materials and is used mainly in cosmetic and detergent applications.
Ceteareth-25 is used as an emulsifier in oil/water emulsions.
Ceteareth-25 is compatible with all kinds of oils & active ingredients, is a very effective protective colloid that stabilizes all kinds of dispersed systems, and can be combined with other emulsifiers, optimal use with gel-forming thickeners.


Ceteareth-25 is used primarily as an emollient, emulsifier and solubilized.
Ceteareth-25 is usually used in combination with other compounds (alcohols and fatty acids), acting as an aid in dissolving the remaining ingredients of the formulation.
Ceteareth-25 due to the high degree of ethoxylation of cetostearyl alcohol shows a strong hydrophilic character, which is why it is perfect for creating stable oil-in-water emulsions (O / W).


Ceteareth-25 forms particularly stable emulsions in combination with other emulsifiers, such as e.g. glyceryl stearate.
Due to the excellent emulsifying properties of Ceteareth-25, it can be used in the preparation of emulsions at room temperature.
This is particularly important when using active substances sensitive to high temperatures, which are a common component of emulsions.
Ceteareth-25 is one of the most widely used conditioning agents and emollients in cleansing and skincare cosmetics.
Emollients are substances that soften and moisturize the skin and reduce itching and flaking.


Ceteareth-25 is used in skin and hair care preparations, it creates an occlusive layer (film) on the surface.
Ceteareth-25 prevents excessive evaporation of water from the surface (an indirect moisturizing effect), which ensures softening and smoothing of the skin and hair.
Ceteareth-25 reduces the drying effect of anionic surfactants, leaving the skin surface moisturized and covered with a protective layer.


Ceteareth-25 also acts as a modifier of rheological properties, i.e. it improves the consistency of creams, lotions, hair conditioners, etc., ensuring an increase in viscosity.
In addition, Ceteareth-25 influences the application properties of the formulation, by improving its distribution and lubrication.
In the detergent industry, Ceteareth-25 works great as the main ingredient of toilet blocks, also those that do not require plastic hangers.


In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Ceteareth-25 is used universal emulsifier to make o/w emulsions.
Ceteareth-25 is used optimal use with gel-forming thickeners.


Ceteareth-25 is widely used in the cosmetics industry.
Ceteareth-25 is especially used as an emulsifier in Hair Creams, Personal Care Products, Skin Care and Face Care Creams and Lotions.
Ceteareth-25 also finds use in creating microemulsions and as an emulsifier in perfumes.
Ceteareth-25 works in a Wide Ph Range.


Therefore, Ceteareth-25 is an important emulsifier in hot processes.
Typical use level of Ceteareth-25 is 0.5-3% (up to 30% to make gel-like hydrates).
Ceteareth-25 is used for external use only.
Ceteareth-25 is used all kinds of emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners, sunscreen products.


Ceteareth-25 is a common ingredient in hair products such as pomades and conditioner.
Ceteareth-25’s also used in cosmetics and personal care products such as lotions, creams, and sunscreen.
Ceteareth-25 grades are oil-in-water emulsifiers and are used for the production of ointments, creams, liquid emulsions, gels and other cosmetic preparations.


Ceteareth-25 can be used for oils with a wide range of polarities. Ceteareth-25 is used creams and lotions can be produced without
problems.
If Ceteareth-25 is used together with cetyl or stearyl alcohol or both,homogeneous ointment and cream bases are obtained that can absorb as much as 90% water.


Ceteareth-25 is a very efficient protective colloid and can increase the stability of dispersed systems.
In concentrations of 21-30%, Ceteareth-25 forms gel-like, brushable hydrates with water.
Ceteareth-25 is a fatty alcohol that functions as an emulsifier and surfactant in cosmetics.
Ceteareth-25 may be plant- or animal-derived or made synthetically.


Ceteareth-25 also helps to keep ingredients soluble within a formula, allowing them to remain dispersed evenly throughout an emulsion.
Ceteareth-25 is one of several ceteareths deemed safe as used in cosmetics.
Concentration ranges from 1.3–10% depending on the type of formula and desired aesthetics; lower amounts may also be used, especially if Ceteareth-25 is part of a blend.


Ceteareth-25 is used surfactant for cosmetic use.
Ceteareth-25 is compatible with all types of oils and active ingredients.
Ceteareth 25 has better thickening properties of ceteareth 20.
water-oil binder It is designed to focus on the work of creating thickening formulas.


Ceteareth-25 acts like a gel-maker, creating a gel texture.
Therefore, Ceteareth-25 is commonly used in recipes that require the meat to look like paste (paste - Thai meaning - semi-liquid / solid. that looks like a wet powder) such as Body Mask, Hair Wax, Pomade, Sleeping Mask
Ceteareth-25 is commonly used in recipes that require the meat to have a paste (paste - Thai meaning - semi-liquid/solid nature), that looks like a wet powder) such as Body Mask, Hair Wax, Pomade, and Sleeping Mask.


Ceteareth-25 can be used to create a clear gel texture. (In case the formula does not contain oil) by creating a weighty gel texture. Unlike other gel-forming agents that creates a light gel texture like a weightless water gel.
Ceteareth-25 is emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients very effective protective colloid that stabilizes all kinds of dispersed systems, can be combined with other emulsifiers, optimal use with gel-forming thickeners.


Ceteareth-25 is used hair pomade, cream, lotion, foundation, sunscreen, etc.
Ceteareth-25 acts as a dispersing agent, o/w co-emulsifier and wetting agent.
Ceteareth-25 isused in skin care creams as well as lotions, microemulsion gels, hair relaxers, perms, depilatories, antiperspirants, shaving products, color cosmetics, feet, hands as well as nails, styling, relaxing/permanent waves, roll on, other (cream) and face.


Ceteareth-25 is a non-ionic surfactant specifically designed for the manufacture of cosmetics and personal care products.
Emulsifier used to form o/w emulsions, suitable with all types of oils and actives, Can be coupled with other emulsifiers and gel-forming thickeners.
Ceteareth-25 has a somewhat higher gel-forming and thickening capability than ceteareth-20.


Ceteareth-25 can be used to make Creams, lotions (particularly sprayable lotions), foundations, hair conditioners, and sunscreen
Ceteareth 25 is a common ingredient in hair products such as pomades and conditioners.
Ceteareth-25’s also used in cosmetics and personal care products such as lotions and creams.
There is no distinct odour.


Ceteareth-25 is great for sprayable lotions, foundations & hair conditioners.
Ceteareth-25 is compatible with all kinds of oils and active ingredients.
Ceteareth-25 is effective protective colloid (a mixture in which one substance consisting of microscopically dispersed insoluble particles is suspended throughout another substance) that stabilizes all kinds of dispersed systems.


Optimal use of Ceteareth-25 is with gel-forming thickeners
Ceteareth-25 helps other ingredients to dissolve in a solvent in which they would not normally dissolve and cleans the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.
Ceteareth-25 is used as a nonionic emulsifier suitable for the making O/W emulsion.


Ceteareth-25 can be used in high or low pH (~4.5-8.5), forms stable emulsion with all commonly used oils and fats in skin care preparation.
Ceteareth-25 is ideal for application in cream and lotion for facial, body and hair care.
Ceteareth-25 is an oil-in-water emulsifier, which helps to stabilize the emulsion system commonly found in the composition of cosmetic lines.
Ceteareth-25 is used as a cleaning agent and emulsifier in various cosmetics, but it also has a viscosity-increasing function, i.e.


Ceteareth-25 improves the consistency of creams, makes them more creamy, and more difficult to flow.
Ceteareth-25 is used for Dry skin and other conditions.
Ceteareth-25 may also be used for purposes not listed in this medication guide.
Ceteareth-25 is used for the treatment, control, prevention, & improvement of the following diseases, conditions and symptoms:
Dry skin


In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, tanning and tanning products, and hair dyes, paints and shades.
Ceteareth-25 can be used in emulsions with low pH, in the presence of high concentrations of electrolytes and in phase inversion emulsions (PIT).
Ceteareth-25 is compatible with emulsifiers and cationic polymers.


Ceteareth-25 can be used in any type of O/W cosmetic emulsion, such as creams and lotions (especially sprayables) for the face and body, deodorants and antiperspirants, foundations, hair conditioners and products with SPF.
Ceteareth-25 is widely used in creams and lotions, foundation and sunscreens.
Ceteareth-25 is used to produce phase inversion hyperfluid emulsions.


Ceteareth-25 is a universally applicable non-ionic emulsifier for oil-in-water emulsions, pharmaceutical preparations and clear gels.
Ceteareth-25 is usually used in concentrations between 0.5-3% (up to 30% to obtain gel-like hydrates).
Ceteareth-25 is used for all types of emulsion cosmetic products: creams, lotions (especially spray lotions), foundations, hair conditioners, sunscreen preparations.


Ceteareth-25 can be used alone to form clear colloidal gels or with waxy consistency factors for O/W emulsions.
Ceteareth-25 can also be used as a secondary emulsifier to provide emulsion stability and is capable of emulsifying hydrophobic pharmaceutical actives ensuring very stable emulsions.
Ceteareth-25 is used for the production of ointments, creams, liquid emulsions, gels.


-Applications of Ceteareth-25:
*shampoos, conditioners, serums, hair masks,
*hair colour products,
*hair gels,
*creams for hands, feet, body,
*eye creams,
*anti-wrinkle creams,
*sunscreens,
*after shave creams,
*self-tanning products,
*balms, lotions (including for children),
*preparations for washing face and body,
*anti-acne preparations,
*make-up base, foundation,
*mascaras, eyeliners,
*make-up removers,
*depilatory preparations,
*detergents – toilet blocks.
*Polyethers/Alkoxylates
*Alkoxylated Alcohol
*Agriculture
*Metal Working & Lubricants
*Personal Care
*Specialty Markets; Emulsifier


-Cosmetic Uses of Ceteareth-25:
*cleansing agents
*surfactants
*surfactant - emulsifying


-Ceteareth-25 is used as surfactant:
Ceteareth-25 effectively removes impurities and dirt from the surface of the skin and hair.
The particles of Ceteareth-25 surround the contaminants, which detach from the cleaned surface and are then washed away.
Ceteareth-25 is also an effective foaming agent.
In addition, Ceteareth-25 is responsible for the stabilization of foam and improves its quality in a mixture with anionic surfactants


-Ceteareth-25 is used as emulsifier:
Due to Ceteareth-25's strong hydrophilic nature, Ceteareth-25 is perfect for creating oil-in-water emulsions.
Due to its very good emulsifying properties, Ceteareth-25 can be used for the preparation of emulsions at room temperature


-Ceteareth-25 is used as solubilized:
Ceteareth-25 enables the incorporation of hardly soluble or water-insoluble ingredients into an aqueous solution, such as fatty substances, plant extracts or fragrances.
Ceteareth-25 has a strong softening, moisturizing and conditioning effect.
Ceteareth-25 reduces the itching and peeling of skin.
Ceteareth-25 maintains the level of moisture at the right level by creating an occlusive layer on the surface of the hair and skin, which prevents excessive evaporation of water



WHY IS CETEARETH-25 USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



HOW CETEARETH-25 IS CLASSIFIED:
*Emulsifiers
*Texture Enhancer



FUNCTIONS OF CETEARETH-25:
*Cleansing Agent
*Emulsifying Agent
Universal emulsifier to make o/w emulsions, compatible with all kinds of oils & active ingredients, very effective protective colloid that stabilizes all kinds of dispersed systems, can be combined with other emulsifiers, optimal use with gel-forming thickeners.
Used as emulsifier, levelling agent, penetrating agent, additive, foaming agent, stabilizerlubricant,
solubilizing agent, softening agent, antistatic agent, dispersing agent, parting agent, degreasing agen
t, plasticizing agent, thickening agent, viscosity conditioning agent etc.

*Cleaning agent: Helps keep a surface clean
Emulsifying agent: Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
Surfactant: Reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
*Non ionic emulsifier in all o/w emulsions;
Solid gel thickener in water based clear hair pomade.



FEATURES OF CETEARETH-25:
*Universal emulsifier for making U/W emulsions.
*Compatible with all types of oils and active ingredients, a highly effective protective colloid that stabilizes all types of dispersion systems.
*Ceteareth-25 can be combined with other emulsifiers.
*Ceteareth-25 is optimal to combine it with gelling thickeners.
*Ceteareth-25 compared to cetearet-20, cetearet-25 has slightly more pronounced gelling and thickening properties.



BENEFITS OF CETEARETH-25:
*Universal emulsifier to make o/w emulsions
*Compatible with all kinds of oils & active ingredients
*Very effective protective colloid that stabilizes all kinds of dispersed systems
*Can be combined with other emulsifiers
*Optimal use with gel-forming thickeners
*Compared to ceteareth-20, ceteareth-25 has a bit more gel-forming and thickening properties



SOLUBILITY OF CETEARETH-25:
Solubility:
Ceteareth-25 dissolves in water and alcohol to form either a colloid or a clear solution.
They are soluble in vegetable and mineral fats and oils.



MISCIBILITY OF CETEARETH-25:
The warm emulsifiers can be mixed with mineral, vegetable, and synthetic fats and oils, as well as with fatty alcohols, fatty acids, mono- and di-stearates, and with polyethylene glycols.



RESISTANCE TO ELECTROLYTES OF CETEARETH-25:
In aqueous solution, Ceteareth-25 is largely resistant to acids, bases and salts.
The presence of these electrolytes does not impair the product’s efficiency as emulsifying agent.



WHAT DOES CETEARETH-25 DO IN A FORMULATION?
*Cleansing
*Emulsifying
*Foaming
*Surfactant



HOW TO USE CETEARETH-25 IN DIFFERENT FORMULATIONS:
1. Water formula, clear gel, using Ceteareth-25 To thicken and thicken the meat: please reheat.
2. Cream formula (water/oil) using Ceteareth-25 To thicken and thicken the meat: please reheat.
Ceteareth-25 mixed with parts of oil Heat at least 55-60 degrees, but adhere to the high temperature required according to the Cream Maker in the recipe blended with a portion of water will have a creamy texture



ADVANTAGES OF CETEARETH-25:
*effective emollient and conditioning agent in cosmetics for washing and care of skin and hair,
*modifier of rheological properties (improves the consistency of preparations),
*oil-in-water (O / W) emulsion stabilizer,
*safe product, does not cause allergic reactions,
*based on renewable vegetable raw materials.



PHYSICAL and CHEMICAL PROPERTIES of CETEARETH-25:
Melting Point: 40-46°C
Solubility: Soluble in water and alcohol
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Appearance at 25°C: White flakes
Color, Pt-Co: ≤30
Cloud Point(1% aque. solu), °C: 76.0-78.0
water, % m/m: ≤1
PH(1% aque. solu): 5.0~7.0



FIRST AID MEASURES of CETEARETH-25:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARETH-25:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up dry.
Dispose of properly.



FIRE FIGHTING MEASURES of CETEARETH-25:
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARETH-25:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CETEARETH-25:
-Conditions for safe storage, including any incompatibilities
*Storage conditions
Tightly closed.
Dry



STABILITY and REACTIVITY of CETEARETH-25:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available



SYNONYMS:
C16-18 alcohols, ethoxylated
Polyoxyethylene glycol ether of cetearyl alcohol
PEG-18 Cetearyl alcohol
Polyoxy Cetearyl Alcohol
cetearyl alcohol, ethoxylated
polyoxyethylene ether of cetyl-stearyl alcohol
polyethylene glycol cetostearyl ether
Ceteareth-25
T/N
Ethal CSA-25
Ceterayl Alcohol and Ceteareth-20
Polyoxyethylene Ether of Cetyl/Stearyl Alcohol
Cremophor A 25
Poe(25) Cetyl/stearylether
Poe(25) Hexadecyl/stearyl-Ether
Polyoxyethylen(25)cetyl-Stearylether
Polyoxyethylen(25) Hexadecylstearylether
CETEARETH-27
CETEARETH-29, N° CAS : 68439-49-6, Nom INCI : CETEARETH-29, Agent nettoyant : Aide à garder une surface propre. Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-29
CETEARETH-3, N° CAS : 68439-49-6, Nom INCI : CETEARETH-3, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-3
Ceteareth – 30; Unicol CS30; Ceterayl Alcohol and Ceteareth-30; Polyoxyethylene Ether of Cetyl/Stearyl Alcohol cas no: 68439-49-6
CETEARETH-30
CETEARETH-30, N° CAS : 68439-49-6, Nom INCI : CETEARETH-30, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-4
CETEARETH-40, N° CAS : 68439-49-6, Nom INCI : CETEARETH-40, Agent nettoyant : Aide à garder une surface propre, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20 Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-40
CETEARETH-5, N° CAS : 68439-49-6, Nom INCI : CETEARETH-5, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20 Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-5
CETEARETH-50, N° CAS : 68439-49-6, Nom INCI : CETEARETH-50, Classification : Composé éthoxylé, Tensioactif non ionique, Le Ceteareth-50 est un tensioactif non ionique préparé à partir d'alcool cétylique et stéarylique et de 50 moles d'oxyde d'éthylène. Il est utilisé en cosmétique comme tensioactif et émulsifiant : HLB (17.7). Il permet de créer des émulsions de type huile dans eau.Ses fonctions (INCI): Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO Other names Ceteareth-20 Pre-Registration process Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO Other names Ceteareth-20 Pre-Registration process
CETEARETH-50
Ceteareth-50 is a polyethylene glycol ether of Cetearyl Alcohol.
Ceteareth-50 is a nonionic surfactant prepared from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Ceteareth-50 is used in cosmetics as a surfactant and emulsifier.
Ceteareth-50 makes it possible to create oil-in-water type emulsions.


CAS Number: 68439-49-6
EC Number: 500-212-8
Chem/IUPAC Name: C16-18 ALCOHOLS,ETHOXYLATED (50 MOL EO AVERAGE MOLAR RATIO)
Classification: Ethoxylated compound , Nonionic surfactant
Molecular Formula:C18H38O


Ceteareth-50 is an emulsifier of various origins.
Ceteareth-50 is a nonionic surfactant made from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Ceteareth-50 enables the production of oil-in-water emulsions.


Ceteareth-50 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Ceteareth-50 is an emulsifier of various origins.
Ceteareth-50 is a nonionic, self-emulsifying base and consistency giving factor for cosmetic O/W emulsions including hair coloring, and is suitable for low viscous systems.


Ceteareth-50 is supplied as white to slightly yellowish wax-like flakes or pellets with a faint characteristic odor.
Ceteareth-50 is a nonionic surfactant prepared from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Ceteareth-50 makes it possible to create oil-in-water type emulsions.


Ceteareth-50 is a nonionic surfactant made from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
It also features key factors that are responsible for boosting or upsetting the market growth and for the assuring opportunities in the global Ceteareth-50 Industry.


The polyethylene glycol ethers of cetearyl alcohol are called ceteareths.
The INCI names ceteareth-n (where n is a number) refer to polyoxyethylene ethers of a mixture of high molecular mass saturated fatty alcohols, mainly cetyl alcohol (m = 15) and stearyl alcohol (m = 17).


The number n indicates the average number of ethylene oxide residues in the polyoxyethylene chain.
These compounds are non-ionic surfactants that work by attracting both water and oil at the same time, frequently used as emulsifiers in soaps and cosmetics.
Ceteareth compounds are fatty alcohols made from a mixture of cetearyl alcohol and ethylene oxide.


The number in the ingredient name refers to the number of ethylene oxide molecules.
The ingredient is mostly used as an emollient and emulsifier, as well as a mixing and thickening agent in cosmetics.
There is some controversy as to how safe the ingredient is.
"Ceteareth-" refers to a PEG (polyethylene glycol) ether of cetearyl alcohol. The number after "ceteareth-" indicates the average number of molecular units -CH2-CH2-O-.


Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids.
In cosmetics and personal care products, Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.


Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.


List of ceteareth compounds:
Ceteareth-2
Ceteareth-3
Ceteareth-4
Ceteareth-5
Ceteareth-6
Ceteareth-7
Ceteareth-8
Ceteareth-9
Ceteareth-10
Ceteareth-11
Ceteareth-12
Ceteareth-13
Ceteareth-15
Ceteareth-16
Ceteareth-17
Ceteareth-18
Ceteareth-20
Ceteareth-22
Ceteareth-23
Ceteareth-25
Ceteareth-27
Ceteareth-28
Ceteareth-29
Ceteareth-30
Ceteareth-33
Ceteareth-34
Ceteareth-40
Ceteareth-50
Ceteareth-55
Ceteareth-60
Ceteareth-80
Ceteareth-100



USES and APPLICATIONS of CETEARETH-50:
Ceteareth-50 is used as emulsifying agent for the production of creams, liquid emulsions, gels and other cosmetic and pharmaceutical preparations.
Ceteareth-50 helps other ingredients to dissolve in a solvent in which they would not normally dissolve and clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.


Ceteareth-50 is used HAIR CARE, Hair dyes, SKIN CARE, Body care, Skin moisturizer, Cleanser, Sun Care, Mother and baby, Hair care, Hair color, Bath and Body.
Ceteareth-50 is a high HLB emulsifier used in oil in water emulsions.
Ceteareths-50 to -100, cleanses the skin and hair by helping water mix with oil and dirt so these substances dissolve they can rinse.


Ceteareth-50 is used emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners and sunscreen products
Ceteareth-50 is used Emulsifier, leveling agent, penetrating agent, additive, foaming agent, stabilizer, lubricant, solubilizing agent, softener, antistatic agent, washing agent, dispersant, release agent, degreasing agent, plasticizer, thickener, viscosity regulator substance and chemical intermediate in industry.


In cosmetics and personal care products, Ceteareth-50 ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colours, and tints.
Further, Ceteareth-50 has great cleansing and foaming properties as well.


Ceteareth-50 enables the production of oil-in-water emulsions.
Ceteareth-50 is used in cosmetic products as emulsifier and surfactant.
Ceteareth-50 helps to form emulsions by reducing the surface tension of the substances to be emulsified.


Ceteareth-50 is used in cosmetics as a surfactant and emulsifier.
Ceteareth-50 is used in cosmetics as a surfactant and emulsifier.


-Cosmetic Uses of Ceteareth-50:
*cleansing agents
*surfactants
*surfactant - emulsifying


-Application & Functionality of Ceteareth-50 is used:
*Surfactant
*Solubilizing agent
*Dispersing agent
*Thickener
*Binder for granulation


-Cosmetic Uses of Ceteareth-50 :
*cleansing agents
*surfactants
*surfactant - emulsifying
*Emulsifier, Surfactant



FUNCTIONS OF CETEARETH-50 IN COSMETIC PRODUCTS:
*CLEANING:
Cleans skin, hair or teeth
*TENSID (EMULSIFYING) - EMULGATOR:
Allows the formation of finely divided mixtures of oil and water (emulsions)
*SURFACTANT (CLEANING):
Detergent substance for cleaning skin, hair and/or teeth



FUNCTIONS OF CETEARETH-50 IN COSMETIC PRODUCTS:
*CLEANING:
Cleans skin, hair or teeth
*TENSID (EMULSIFYING) - EMULGATOR:
Allows the formation of finely divided mixtures of oil and water (emulsions)
*SURFACTANT (CLEANING):
Detergent substance for cleaning skin, hair and/or teeth
*SURFACTANT - EMULSIFYING
Allows the formation of finely dispersed mixtures of oil and water (emulsions)
*SURFACTANT - CLEANSING
Surface-active agent to clean skin, hair and / or teeth
*TENSID (CLEANING): Detergent substance for cleaning skin, hair and/or teeth



WHAT DOES CETEARETH-50 DO IN A FORMULATION?
*Cleansing
*Emulsifying
*Surfactant



WHY IS CETEARETH-50 IN COSMETICS AND PERSONAL CARE PRODUCTS?
Ceteareth-2 to -18, and Ceteareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Ceteareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Ceteareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Ceteareths-50 to -100, clean the skin and hair by helping water to mix with oil and dirt so that these substances can be rinsed away.



CETEARETH-50'S FUNCTIONS:
*Cleaning agent:
Ceteareth-50 helps keep a surface clean
*Emulsifying agent:
Ceteareth-50 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Ceteareth-50 reduces the surface tension of cosmetics and contributes to the even distribution of the product during use



WHAT IS CETEARETH?
Ceteareths (Ceteareth-2, Ceteareth-3, Ceteareth-4, Ceteareth-5, Ceteareth-6, Ceteareth-7, Ceteareth-8, Ceteareth-9, Ceteareth-10, Ceteareth-11, Ceteareth-12, Ceteareth-13, Ceteareth-14, Ceteareth-15, Ceteareth-16, Ceteareth-17, Ceteareth-18, Ceteareth-20, Ceteareth-22, Ceteareth-23, Ceteareth-24, Ceteareth-25, Ceteareth-27, Ceteareth-28, Ceteareth-29, Ceteareth-30, Ceteareth-33, Ceteareth-34, Ceteareth-40, Ceteareth-50, Ceteareth-55, Ceteareth-60, Ceteareth-80, Ceteareth-100) are liquids to waxy solids. In cosmetics and personal care products,
Ceteareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.



SCIENTIFIC FACTS OF CETEARETH-50:
Ceteareths are made from cetearyl alcohol, which is a mixture of cetyl and stearyl alcohol, and ethylene oxide.
The numerical value represents the average number of molecules of ethylene oxide added to generate the specific Ceteareth ingredient.
For example, Ceteareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.



PHYSICAL and CHEMICAL PROPERTIES of CETEARETH-50:
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Appearance Form: crystalline
Color: white
Odor: characteristic
Odor Threshold: No data available
pH: 5,0 - 7,0 at 100 g/l at 20 °C
Melting point/freezing point:
Drop point: ca.47 °C
Initial boiling point and boiling range: No data available
Flash point: 243 °C
Evaporation rate: No data available
Flammability (solid, gas): No data available
Upper/lower flammability explosive limits or: No data available

Vapor pressure: < 0,1 hPa at 20 °C
Vapor density: No data available
Density: 1,0 g/cm3 at 60 °C - DIN 51757
Relative density: No data available
Water solubility: 100 g/l at 20 °C - soluble
Partition coefficient: n-octanol/water: No data available
Autoignition temperature: > 200 °C
Decomposition temperature > 300 °C -
Viscosity
Viscosity, kinematic: No data available
Viscosity, dynamic: ca.70 mPa.s at 60 °C

Explosive properties: No data available
Oxidizing properties: none
Other safety information: No data available
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Appearance at 25ºC Solid/Waxy flakes
Acid value mg KOH/gm max: 1
Color apha: 100
Hydroxyl value mg KOH/gm: 20-26
% Moisture content by KF: 1
pH: 6-8



FIRST AID MEASURES of CETEARETH-50:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled.
After inhalation:
Fresh air.
*In case of skin contact:
Take off immediately all contaminated clothing.
Rinse skin with water/ shower.
*In case of eye contact:
After eye contact:
Rinse out with plenty of water.
Immediately call in ophthalmologist.
Remove contact lenses.
*If swallowed:
After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a
physician.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARETH-50:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Cover drains.
Collect, bind, and pump off spills.
Take up dry.
Dispose of properly.



FIRE FIGHTING MEASURES of CETEARETH-50:
-Extinguishing media:
*Suitable extinguishing media:
Water
Foam
Carbon dioxide (CO2)
Dry powder
*Unsuitable extinguishing media:
For this substance/mixture no limitations of extinguishing agents are given.
-Further information:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARETH-50:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Tightly fitting safety goggles
*Skin protection:
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
protective clothing
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of CETEARETH-50:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry



STABILITY and REACTIVITY of CETEARETH-50:
-Chemical stability:
The product is chemically stable under standard ambient conditions (room temperature) .
-Possibility of hazardous reactions:
No data available



SYNONYMS:
CETEARETH-50
CETEARETH-50 [INCI]
EMPILAN KM50/FK
GENAPOL T 500 P
HETOXOL CS-50
PROCOL CS-50
ROLFOR HT 50
SABOWAX CS 50
Alcohol C16 C18 ethoxylated, Fatty alcohol ethoxylate
CETEARETH-50
CETEARETH-50 [INCI]
EMPILAN KM50/FK
GENAPOL T 500 P
HETOXOL CS-50
PROCOL CS-50
ROLFOR HT 50
SABOWAX CS 50




CETEARETH-6
CETEARETH-6 OLIVATE, N° CAS : 226708-41-4, Nom INCI : CETEARETH-6 OLIVATE, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Stabilisateur d'émulsion : Favorise le processus d'émulsification et améliore la stabilité et la durée de conservation de l'émulsion, Agent d'entretien de la peau : Maintient la peau en bon état
CETEARETH-6 OLIVATE
CETEARETH-60, N° CAS : 68439-49-6, Nom INCI : CETEARETH-60, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-60
CETEARETH-7, N° CAS : 68439-49-6, Nom INCI : CETEARETH-7, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
Ceteareth-60 Myristyl Glycol
SynonymsElfacos GT 282;CETEARETH-60 MYRISTYL GLYCOL;Alkyl(C16-18)polyethyleneglycol tetra decylene glycolether;Alkyl (C16-18)polyethyleneglycol tetra decylene glycolether CAS No.96081-39-9
CETEARETH-7
CETEARETH-80, N° CAS : 68439-49-6, Nom INCI : CETEARETH-80, Agent nettoyant : Aide à garder une surface propre, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20 Noms français : Alcools (C16-C18), éthoxylés Noms anglais : (C16-C18) ALKYL ALCOHOL ETHOXYLATE (C16-C18) FATTY ALCOHOL, ETHYLENE OXIDE REACTION PRODUCT (C16-C18)ALKYL ALCOHOL ETHOXYLATE ALCOHOLS, C16-18, ETHOXYLATED Alcohols, C16-18, ethoxylated Alcohols, C16-18 (even numbered), ethoxylated (1 - 2.5 moles EO) Alcohols, C16-18 ethoxylated Alcohols, C16-18, 2EO Alcohols, C16-18, ethoxylated (CTS) (MAN) Alcohols, C16-18, ethoxylated, 5-20 EO Alkyl alcohol ethoxylate alpha-(C16-C18 Alkyl) omega-Hydroxy Poly(EO) C16-18 alcohols, ethoxylated C16-18 alcohols, ethoxylated(?) C16~18 fatty alcohol polyoxyethylene ether Ethoxtlated fatty alcohol Fatty alcohol ethoxylate Polyethylene cetostearyl ether s Alcools en C16-18 éthoxylés Alfol 1618 + 14 EO; 14-EO; 100% Active Matter; active substance Alfonic 1618-46 Alfonic 1618-62 Alfonic 1618-80 Alkohole, C16-18, ethoxyliert Alkyl polyglycol ether C16-18 with EO Alkyl Polyglykolether C16-18 mit EO Atlas G-4822; 12-EO Berol 07 Berol TVM 065; 10-EO; 100% Active Matter; active substance BF 4324; 20-EO C16-18 alcs., ethoxylated C16-18 fatty alcs., ethoxylated C16-18 Fettalkohol + 50 EO; 50-EO C16-18, ethoxylated alcs. C16/18-Fettalkohol + 14 EO; 14-EO; C16/18-Fettalkohol + 6 EO; 6-EO Cemulsol DB Ceteareth Ceteareth 20 Ceteareth 20 (INCI) Ceteareth Series Ceteareth-10 Ceteareth-10 (INCI) Ceteareth-100 Ceteareth-100 (INCI) Ceteareth-11 Ceteareth-11 (INCI) Ceteareth-12 Ceteareth-12 (INCI) Ceteareth-13 Ceteareth-13 (INCI) Ceteareth-15 Ceteareth-15 (INCI) Ceteareth-16 Ceteareth-16 (INCI) Ceteareth-17 Ceteareth-17 (INCI) Ceteareth-18 Ceteareth-18 (INCI) Ceteareth-2 Ceteareth-2 (INCI) Ceteareth-20 (INCI) Ceteareth-23 Ceteareth-23 (INCI) Ceteareth-25 Ceteareth-25 (INCI) Ceteareth-27 Ceteareth-27 (INCI) Ceteareth-28 Ceteareth-28 (INCI) Ceteareth-29 Ceteareth-3 Ceteareth-33 Ceteareth-34 Ceteareth-4 Ceteareth-40 Ceteareth-5 Ceteareth-50 Ceteareth-55 Ceteareth-6 Ceteareth-60 Ceteareth-7 Ceteareth-8 CETETH-20 (INCI) Cetomacrogol Cetomacrogol 1000 Cetomacrogol 1000 (INN) Cetostearyl alcohol ethoxylated Cetyl Stearylalkohol 30 EO; 30-EO Cetyl-Stearylalkohol 12 EO; 12-EO Cetyl-Stearylalkohol 14 EO; 14-EO Cetyl-Stearylalkohol 20 EO; 20-EO Cetyl-Stearylalkohol 25 EO; 25-EO Cetylstearylalkohol + EO Cetylstearylalkohol, ethoxyliert Dehydol PCS 14; 14-EO Dehydol PCS 6; 6-EO; 100% Active Matter; active substance Dehydol PTA 23/E; 25-EO Dehydol PTA 23; 25-EO DEHYDOL PTA 40; 40-EO Dehydol PTA 80/E; 25-EO Dispercoll U VP KA 8758; 2-EO DISPONIL 21 GESCH; 20-EO Disponil 21 Geschuppt; 20-EO; 100% Active Matter; active substance Disponil 21; 20-EO Disponil B 1; 12-EO; 100% Active Matter; active substance Disponil B 2; 20-EO DISPONIL B 3 GESCH; 30-EO Disponil B 3 geschuppt; 30-EO Disponil B 3; 30-EO EMPILAN K M 20; 20-EO Empilan KM 11 Empilan KM 15 Empilan KM 20 Empilan KM 25; 25-EO Emulgator E 2209; 30-EO Emulgin B 1 Emulgin B2 Ethal CSA 10 Ethal CSA 17 Ethoxylated alcohols, C16-18 Ethoxylated C16-18 alcs. Ethoxylated cetostearyl alcohol Eumulgin EUMULGIN 535; 6-EO; 100% Active Matter; active substance Eumulgin B 1 EUMULGIN B 1 FEST; 12-EO EUMULGIN B 1 FL.; 12-EO; 100% Active Matter; active substance EUMULGIN B 1 U; 12-EO Eumulgin B 1 Vorprodukt; 12-EO Eumulgin B 1; 12-EO; 100% Active Matter; active substance Eumulgin B 2 EUMULGIN B 2 GESCHUPPT; 20-EO; 98% Active Matter; active substance EUMULGIN B 2 U GESCHUPPT; 20-EO EUMULGIN B 2 U W; 20-EO EUMULGIN B 2 U; 20-EO Eumulgin B 2 Vorprodukt; 20-EO Eumulgin B 2; 20-EO; 100% Active Matter; active substance Eumulgin B 3 Eumulgin B 3 flaked; 30-EO EUMULGIN B 3 FLS; 30-EO Eumulgin B 3 gesch.; 30-EO Eumulgin B 3 geschuppt; 30-EO EUMULGIN B 3 U; 30-EO Eumulgin B 3 Vorprodukt; 30-EO EUMULGIN B 3; 30-EO; 100% Active Matter; active substance EUMULGIN B-2 FLAKES; 20-EO EUMULGIN B2 FLAKED; 20-EO Eumulgin C 1000 Eumulgin C 700 Eumulgin CS 3 Eumulgin CS 6; 6-EO Eumulgin D 2; 2-EO Eumulgin KJ-10 F 568; 20-EO FA + 12 EO, C16-18; 12-EO FA + 14 EO, Talg C16-18; 14-EO FA + 20 EO, C16-18; 20-EO FA + 25 EO, C16-18; 25-EO FA + 30 EO, C16-18; 30-EO FA + 5 EO, Talg C16-18; 5-EO FA + 50 EO, C16-18 (gemahlen); 50-EO FA + 6 EO, C16-18; 6-EO FA + 80 EO, Talg; 80-EO FA, C16-18, + 8 EO; 8-EO FA-C16-18 + EO FA-C16-18, ethoxylated FA-C16-18, ethoxyliert FAEO C16-18 + 10EO (NRE); 10-EO (NRE) FAEO C16-18 + 10EO; 10-EO FAEO C16-18 + 11EO; 11-EO FAEO C16-18 + 12EO; 12-EO FAEO C16-18 + 13EO; 13-EO FAEO C16-18 + 14EO; 14-EO FAEO C16-18 + 15EO; 15-EO FAEO C16-18 + 16EO; 16-EO FAEO C16-18 + 20EO; 20-EO FAEO C16-18 + 25EO; 25-EO FAEO C16-18 + 26EO; 26-EO FAEO C16-18 + 2EO; 2-EO FAEO C16-18 + 30EO; 30-EO FAEO C16-18 + 33EO; 33-EO FAEO C16-18 + 3EO; 3-EO FAEO C16-18 + 40EO; 40-EO FAEO C16-18 + 4EO; 4-EO FAEO C16-18 + 50EO; 50-EO FAEO C16-18 + 5EO; 5-EO FAEO C16-18 + 6EO; 6-EO FAEO C16-18 + 80EO; 80-EO FAEO C16-18 + 8EO; 8-EO FAEO C16-18 + 9EO; 9-EO FAEO C16-18 + nEO; n-EO Fatty alcs., C16-18, ethoxylated Fettalkohol+3-EO; 3-EO Fettalkohol-C16/18-30 EO Fettalkohole, C16-18 + EO Fettalkohole, C16-18, ethoxyliert Findet 1618 A 72 P; 60-EO G 3816 Genapol T 080; 8-EO GENAPOL T 110 FLS; 11-EO Genapol T 110; 11-EO Genapol T 250 P; 25-EO Genapol T 250; 25-EO Genapol T 500 gemahlen; 50-EO Genapol T 500 P; 50-EO Genapol T 500; 50-EO Genapol T-250 Pulver; 25-EO Genapol T-500 Pulver; 50-EO Genapol T-800; 80-EO GENAPOL TP 1653 M-2 Hostacerin T 3 Hydrenol D + 10 EO (NRE); 10-EO (NRE); 100% Active Matter; active substance Hydrenol D + 10 EO; 10-EO; 100% Active Matter; active substance Imbentin AG 168/060 Imbentin AG 168/090 Imbentin AG 168/200 Imbentin AG 168S030 Imbentin AG 168S110 Imbentin AG 168S300 INTERMEDIO KJ-73; 20-EO INTERMEDIO KJ-74; 30-EO KM 11 KM 20 Lipal 15CSA Lipocol SC 10 Lipocol SC 4 Lutensol AT Lutensol AT 11 LUTENSOL AT 11; 11-EO Lutensol AT 13; 13-EO Lutensol AT 25 LUTENSOL AT 25 FEINPULVER; 25-EO LUTENSOL AT 25 PULVER; 25-EO Lutensol AT 25 Schuppen; 25-EO Lutensol AT 25; 25-EO Lutensol AT 50 LUTENSOL AT 50 FEINPULVER; 50-EO LUTENSOL AT 50 PLV; 50-EO Lutensol AT 50 Pulver; 50-EO LUTENSOL AT 50 Schuppen; 50-EO Lutensol AT 50; 50-EO Lutensol AT 80 E; 80-EO; 100% Active Matter; active substance LUTENSOL AT 80 FEINPULVER; 80-EO LUTENSOL AT 80 PULVER; 80-EO LUTENSOL AT 80 SCHUPPEN; 80-EO Lutensol AT 80; 80-EO Macol CSA 10 Macol CSA 20 Macol CSA 20; 20-EO; 100% Active Matter; active substance Macol CSA 40 Macrogol-260-cetylstearylether Marlipal 1618/10 Marlipal 1618/11 Marlipal 1618/11; 11-EO Marlipal 1618/18 Marlipal 1618/25 Marlipal 1618/25; 25-EO Marlipal 1618/40 Marlowet TA 6 Mergatil CS 33A Mergital C 23; 23-EO Mergital CS 15 Mergital CS 15; 15-EO MERGITAL CS 25 A; 25-EO Mergital CS 33; 33-EO Mergital CS 4; 4-EO Mergital CS 50 A; 50-EO Mergital E 1471 Neonol P 1618-10 Neonol P 1618-11 Neonol P 1618-12 Oksanol TsS-21 OMC 933; 20-EO Oxanol TsS 21 Peratom B 1; 12-EO Plurafac A 38 Plurafac A 38; 26-EO; 100% Active Matter; active substance Plurafac A 39 POE Cetyl/stearyl ether Procol CS 20 Produkt KB-12 Produkt KB-14 Produkt KB-17 Präparat 066; 12-EO Präparat 484; 20-EO Präparat 845; 30-EO Präparat 917; 20-EO Präparat P04; 20-EO Remcopal CS 25-40 RN 8018; 50-EO Silipon RN 8018; 50-EO Stenol C16/18 + 15 EO; 15-EO Talgfettalkohol + EO Talgfettalkohol-20 EO TEGINACID C; 25-EO TEGO Alkanol CS 20; 20-EO TERIC 16A16; 16-EO TERIC 17 A 3; 3-EO VOLPO CS 20; 20-EO names Ceteareth-20
CETEARETH-80
CETEARTRIMONIUM CHLORIDE, N° CAS : 68002-62-0, Nom INCI : CETEARTRIMONIUM CHLORIDE, N° EINECS/ELINCS : 268-075-4, Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface, Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance, Conservateur : Inhibe le développement des micro-organismes dans les produits cosmétiques.
CETEARETH-80
DESCRIPTION:

Ceteareth-80 is a cleaning agent, or "surfactant," that can be found in a variety of cosmetic and personal care products.
"Ceteareth-" refers to a PEG (polyethylene glycol-) ether of cetearyl alcohol.
The number behind "ceteareth-" refers to the average number of molecular units -CH2-CH2-O-.

CAS Number: 68439-49-6
ECHA EC Number: 500-212-8
Chem/IUPAC Name: C16-18 alcohols, ethoxylated (80 mol EO average molar ratio)

Ceteareth-80 is used in our products to remove dirt and deposits by surrounding dirt particles to loosen them from the surface they're attached to, so they can be rinsed away.
Ceteareth-80 is emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners and sunscreen products.

WHAT DOES CETEARETH-80 DO IN A FORMULATION?
Cleansing
Surfactant

FUNCTION(S) OF CETEARETH-80 IN COSMETIC PRODUCTS:
CLEANING:
Cleans skin, hair or teeth

SURFACTANT :
Detergent substance for cleaning skin, hair and/or teeth

BACKGROUND INFORMATION ON USE OF CETEARETH-80 IN COSMETICS:
Polyethylene glycols (INCI: PEG-...) are polycondensation products of ethylene glycol or polymerisation products of ethylene oxide.
The number attached to the name indicates the average number of ethylene oxide units in the substance.
The consistency of the PEG derivatives becomes increasingly firm as the degree of polymerization increases.

PEGs with an average molar mass of up to 600 g/mol are liquid, up to 1000 g/mol are waxy and from 4000 g/mol are solid, waxy substances.
By mixing solid and liquid components, products with a creamy consistency are obtained, which are used as water-free and water-washable bases.
With increasing molar mass, the water solubility and hygroscopicity (moisture absorption capacity) of the polyethylene glycols decrease.

Surfactants are so-called washing-active substances and are of great importance in cosmetics for cleaning the skin and hair.
Surfactants (from the Latin "tensus" = tense) are substances that, thanks to their molecular structure, are able to reduce the surface tension of a liquid.
In this way, two liquids that are actually not miscible, such as oil and water, can be finely mixed.

Because of their properties, surfactants are used in many different ways in cosmetics:
They can clean, create foam, and also act as emulsifiers and mix substances with one another.
In shampoos, shower gels and soaps, for example, surfactants are used to wash away fat and dirt particles from the body with water.

Surfactants are also used in toothpaste.
The surfactants used in cosmetic products are mainly produced synthetically on the basis of plant-based raw materials.
Surfactants are often used in combination in order to meet all desired requirements - such as dirt removal and foam formation combined with good skin compatibility - in the best possible way.

A product with good cleaning properties and equally good skin compatibility is obtained through the skillful combination of a tenside that is unfavorable to the skin but very good dirt-dissolving properties with a very mild, skin-friendly tenside.

CHEMICAL AND PHYSICAL PROPERTIES OF CETEARETH-80:
Appearance at 25ºC Waxy flakes
Acid value mg KOH/gm max 1
Color apha 100
Hydroxyl value mg KOH/gm 12-20
% Moisture content by KF 1
pH 6-8

SAFETY INFORMATION ABOUT CETEARETH-80:
First aid measures:
Description of first aid measures:
General advice:
Consult a physician.
Show this safety data sheet to the doctor in attendance.
Move out of dangerous area:

If inhaled:
If breathed in, move person into fresh air.
If not breathing, give artificial respiration.
Consult a physician.
In case of skin contact:
Take off contaminated clothing and shoes immediately.
Wash off with soap and plenty of water.
Consult a physician.

In case of eye contact:
Rinse thoroughly with plenty of water for at least 15 minutes and consult a physician.
Continue rinsing eyes during transport to hospital.

If swallowed:
Do NOT induce vomiting.
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
Consult a physician.

Firefighting measures:
Extinguishing media:
Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
Special hazards arising from the substance or mixture
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas

Advice for firefighters:
Wear self-contained breathing apparatus for firefighting if necessary.
Accidental release measures:
Personal precautions, protective equipment and emergency procedures
Use personal protective equipment.

Avoid breathing vapours, mist or gas.
Evacuate personnel to safe areas.

Environmental precautions:
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Methods and materials for containment and cleaning up:
Soak up with inert absorbent material and dispose of as hazardous waste.
Keep in suitable, closed containers for disposal.

Handling and storage:
Precautions for safe handling:
Avoid inhalation of vapour or mist.

Conditions for safe storage, including any incompatibilities:
Keep container tightly closed in a dry and well-ventilated place.
Containers which are opened must be carefully resealed and kept upright to prevent leakage.
Storage class (TRGS 510): 8A: Combustible, corrosive hazardous materials

Exposure controls/personal protection:
Control parameters:
Components with workplace control parameters
Contains no substances with occupational exposure limit values.
Exposure controls:
Appropriate engineering controls:
Handle in accordance with good industrial hygiene and safety practice.
Wash hands before breaks and at the end of workday.

Personal protective equipment:
Eye/face protection:
Tightly fitting safety goggles.
Faceshield (8-inch minimum).
Use equipment for eye protection tested and approved under appropriate government standards such as NIOSH (US) or EN 166(EU).

Skin protection:
Handle with gloves.
Gloves must be inspected prior to use.
Use proper glove
removal technique (without touching glove's outer surface) to avoid skin contact with this product.
Dispose of contaminated gloves after use in accordance with applicable laws and good laboratory practices.
Wash and dry hands.

Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
Splash contact
Material: Nitrile rubber
Minimum layer thickness: 0.11 mm
Break through time: 480 min
Material tested:Dermatril (KCL 740 / Aldrich Z677272, Size M)
It should not be construed as offering an approval for any specific use scenario.

Body Protection:
Complete suit protecting against chemicals, The type of protective equipment must be selected according to the concentration and amount of the dangerous substance at the specific workplace.
Respiratory protection:
Where risk assessment shows air-purifying respirators are appropriate use a fullface respirator with multi-purpose combination (US) or type ABEK (EN 14387) respirator cartridges as a backup to engineering controls.

If the respirator is the sole means of protection, use a full-face supplied air respirator.
Use respirators and components tested and approved under appropriate government standards such as NIOSH (US) or CEN (EU).
Control of environmental exposure
Prevent further leakage or spillage if safe to do so.
Do not let product enter drains.
Discharge into the environment must be avoided.

Stability and reactivity:
Chemical stability:
Stable under recommended storage conditions.
Incompatible materials:
Strong oxidizing agents:
Hazardous decomposition products:
Hazardous decomposition products formed under fire conditions.
Carbon oxides, Nitrogen oxides (NOx), Hydrogen chloride gas.

Disposal considerations:
Waste treatment methods:
Product:
Offer surplus and non-recyclable solutions to a licensed disposal company.
Contact a licensed professional waste disposal service to dispose of this material.
Contaminated packaging:
Dispose of as unused product.

SYNONYMS OF CETEARETH-80:
Alcohol C16 C18 ethoxylated, Fatty alcohol ethoxylate

CETEARTRIMONIUM CHLORIDE
CETEARYL ALCOHOL.; CETOSTEARYL ALCOHOL.; C16-18.; C16-C18 n-Hexadecyl-stearyl alcohol (mixed) cas no: 8005-44-5
CETEARYL ALCOHOL
SYNONYMS Hexadecan-1-ol; Palmityl alcohol; 1-Hexadecanol; Alcohol, C16; Cetanol; Hexadecyl alcohol; Cetylol; Hexadecanol; LorolL 24; Loxanol K; Product 308 CAS NO. 124-29-8
CETEARYL ALCOHOL
Cetearyl Alcohol is a mixture of cetyl and stearyl alcohol.
Cetearyl Alcohol is a white, waxy solid in the form of pastilles.
Cetearyl Alcohol is a high-quality raw material that undergoes strict quality control and testing to ensure its purity and effectiveness.


CAS Number: 67762-27-0 / 8005-44-5
EC Number: 267-008-6 / -
Chem/IUPAC Name:: Alcohols, C16-18


Cetearyl Alcohol is a common fatty alcohol used in cosmetics, personal care, and pharmaceutical products.
Cetearyl Alcohol is a high-quality raw material that undergoes strict quality control and testing to ensure the quality and purity of the product.
Cetearyl Alcohol is a chemical found in cosmetic products.


Cetearyl Alcohol’s a white, waxy mixture of cetyl alcohol and stearyl alcohol, both fatty alcohols.
Cetearyl Alcohol is found in animals and plants, like coconut and palm oil.
Cetearyl Alcoholcan also be made in a laboratory.


Fatty alcohols are sometimes called long-chain alcohols because of their chemical formula.
They usually have an even number of carbon atoms, with a single alcohol group (–OH) attached to the last carbon.
Cetearyl Alcohol helps prevent creams from separating into oil and liquid.


Cetearyl Alcohol which helps to keep liquid and oil together is known as an emulsifier.
Cetearyl Alcohol may also make a product thicker or increase the product’s ability to foam.
Cetearyl Alcohol isn’t the only fatty alcohol used in cosmetic products.


Other examples include cetyl alcohol, lanolin, oleyl alcohol, and stearyl alcohol.
Due to its chemical structure, Cetearyl Alcohol is even permitted by the FDA as an ingredient in products labeled “alcohol-free.”
Cetearyl Alcohol is a mixture of cetyl and stearyl alcohols that can come from vegetable or synthetic sources.


Cetearyl Alcohol is an extremely common multitasker ingredient that gives your skin a nice soft feel (emollient) and gives body to creams and lotions.
Cetearyl Alcohol also helps to stabilize oil-water mixes (emulsions), though it does not function as an emulsifier in itself.
Cetearyl Alcohol's typical use level in most cream type formulas is 2-3%.


Cetearyl Alcohol’s a so-called fatty alcohol, a mix of cetyl and stearyl alcohol, other two emollient fatty alcohols.
Though chemically speaking, Cetearyl Alcohol is alcohol (as in, it has an -OH group in its molecule), its properties are totally different from the properties of low molecular weight or drying alcohols.


Fatty alcohols have a long oil-soluble (and thus emollient) tail part that makes them absolutely non-drying and non-irritating and are totally ok for the skin.
Cetearyl Alcohol is a pre-made 50:50 blend of cetyl alcohol and stearyl alcohol, which are fatty alcohols that give creams and lotions their thickness and texture.
The more cetearyl alcohol used, the thicker or creamier the product.


Cetearyl alcohol also helps stabilize emulsions.
Cetearyl Alcohol is actually a blend of cetyl and stearyl alcohol which are both naturally derived from mixed vegetable sources.
Use Levels of Cetearyl Alcohol is 0.2-1.5% typically.


Cetearyl alcohol is made from a combination of cetyl and stearyl alcohol.
These alcohols are mostly derived from plant-based sources such as coconut, palm, and vegetable oil.
Further, it can also be made in the laboratory.


Cetearyl alcohol is a safe and non-toxic ingredient that poses little to no risk when applied.
A minor side effect could be rashes on highly sensitive skin; therefore, a patch test is required.
Cetearyl Alcohol is also biodegradable and does not pose any known environmental hazard.


Additionally, plant-based derivatives make Cetearyl alcohol halal and vegan.
Cetearyl alcohol is solvent in alcohol, non-solvent in water, very well tolerated and readily biodegradable.
Cetearyl alcohol is different from the alcohol in drinks, which is known as ethanol.


While ethanol is drying to the skin, fatty alcohols are not.
Experts widely accept cetearyl alcohol as a safe ingredient in cosmetics, and it is practically nontoxic.
Cetearyl Alcohol also examines other alcohols in cosmetics.


Cetearyl Alcohol is a mixture of cetyl alcohol and stearyl alcohol.
Both alcohols are present in small amounts in plants and animals.
Cetearyl, cetyl, and stearyl alcohol are all fatty alcohols, which means they derive from natural oils and fats.


Cetearyl alcohol is a waxy, white solid that manufacturers typically sell in the form of flakes.
While it is soluble (dissolves) in oils and alcohols, Cetearyl Alcohol is insoluble in water.
Cetearyl Alcohol consists predominantly of cetyl and stearyl alcohols and is classified as a fatty alcohol.


Cetearyl Alcohol is not an emulsifier itself, but needs to be combined with Emulsifying Wax (i.e. steareth-21).
Cetearyl Alcohol is NOT derived from any animal fats or oils.
Cetearyl Alcohol is coconut/palm-oil derived.


Cetearyl Alcohol is a long chain, fatty alcohol that adds an emulsifying agent to many hair care products and can help your hair feel smoother with less frizz.
Long chain alcohols are oilier than short chain alcohols thanks to their abundance of carbon atoms in each molecule (between 12 and 20″>.
Made from a combination of Cetyl alcohol and Stearyl alcohol, Cetearyl alcohol can be naturally sourced from plants or synthetically created.


While the ingredient section may list it by name, Cetearyl alcohol can also be referred to as:
*alcohols C1618
*C16-18 alcohols
*(C16-C18″> alkyl alcohol
*cetyl/stearyl alcohol
*cetostearyl alcohol


Cetearyl Alcohol is often used as a generic term, but not all alcohols are created equal.
Cetearyl Alcohol can fall into two categories:
1) high molecular alcohols
2) low molecular alcohols.


Low molecular alcohols are also known as drying alcohols.
High molecular alcohols are also called fatty alcohols.
Cetearyl Alcohol falls into this last category.


Cetearyl Alcohol is an ingredient that is derived naturally from plants like palm oil or coconut oil.
Although the names sound similar, Cetyl Alcohol and Ceteareth-20 are not the same as Cetearyl Alcohol.
They do have stuff in common though. Cetearyl Alcohol is made from Cetyl Alcohol and Stearyl Alcohol, and if you mix Cetearyl Alcohol with Ethylene Oxide you get Ceteareth-20.


Both Cetyl Alcohol and Ceteareth-20 serves kind of the same purpose as Cetearyl Alcohol – they act as an emulsifier and help to stabilize and thinker up skincare products and hair products.
Cetearyl alcohol belongs to the family of fatty alcohols.
Cetearyl Alcohol thickens creams and stabilizes them.


Cetearyl Alcohol softens and protects the skin without a greasy effect.
Cetearyl alcohol mainly contains cetyl alcohol (Cetyl alcohol) and stearyl alcohol (Stearyl alcohol).
Cetearyl Alcohol is authorized in organic.


Cetearyl Alcohol is vegetable-derived fatty alcohol used as an emollient and thickening agent in skin creams and lotions.
In topical formulations, Cetearyl Alcohol will increase viscosity and acts as an emulsifier in water-in-oil and oil-in-water emulsions.
Cetearyl alcohol stabilizes an emulsion and also acts as a co-emulsifier, thereby reducing the total amount of surfactant required to form a stable emulsion.


Cetearyl alcohol is an emulsifier that thickens cosmetic products and makes them stable by holding water and oil together.
Cetearyl Alcohol can also be used as a surfactant that foams and washes the hair and skin, and is known for its emollient properties.
Cetearyl alcohol is a solid, waxy material derived from the fats of vegetable oils.


Although it is called ‘alcohol’, Cetearyl Alcohol is not a fermented mixture and has nothing to do with ethanol.
Cetearyl Alcohol is very gentle on the skin and does not dry it out.
Cetearyl Alcohol is an emollient that makes the skin and hair smooth and supple.


This co-emulsifier in the form of small white pastilles, Cetearyl Alcohol, is composed of half cetyl alcohol and half stearyl alcohol.
Cetearyl alcohol is purely plant-based and therefore biodegradable.
Cetearyl Alcohol is a white to light yellowish hydrophilic wax that is supplied in pellets.


Cetearyl Alcohol has a hydroxyl value of 215-225, a tube rise melting point of 49 - 56°C, and an iodine number of max. 0.5.
Cetearyl Alcohol is a waxy substance that's derived.
Cetearyl Alcohol, also know as Cetostearyl Alcohol, is a vegetable-derived fatty alcohol mixture of approximately 30% cetyl alcohol and 70% stearyl alcohol.


Cetearyl Alcohol gives an emollient feel to the skin and a conditioning effect to hair.
Cetearyl Alcohol is a white waxy solid ingredient with a mild soapy odour, and is in a group known as a ‘fatty alcohols’.
Unlike more conventional alcohols like ethanol, fatty alcohols have notably different properties - typically they are non-irritating and non-drying to skin.


Cetearyl alcohol is primarily made from cetyl and stearyl alcohols, which can be synthetically produced or derived from plant oils such as coconut and palm, or from animal oils (not used by ecostore).
Cetearyl Alcohol is part of a group of ‘fatty alcohols’ that are derived from synthesising natural components, in this case stearic acid and palmitic acid (found in oils and butters) and vegetable triglycerides.


Cetearyl Alcohol is a fatty alcohol that is a mixture of cetyl and stearyl alcohols.
Cetearyl Alcohol can be derived naturally, as in coconut fatty alcohol, or made synthetically.
Unlike the skin-aggravating/drying forms of alcohol (typically listed as SD alcohol, denatured alcohol, or isopropyl alcohol), cetearyl alcohol is an emollient that is gentle, safe, and good for skin.


Cetearyl Alcohol is almost always combined with similar-feeling ingredients to create a product’s texture and slip sensation when applied to skin.
As a raw material, Cetearyl Alcohol is a white, waxy solid (often in flake form).
Cetearyl Alcohol is not soluble in water but is soluble in alcohol and oils.
In the majority of skin care formulas, Cetearyl Alcohol is present in under a 5% concentration, although higher amounts are permissible.


Cetearyl Alcohol (CH3(CH2)nOH) is a mixture of cetyl and stearyl alcohols that can come from vegetable or synthetic sources.
Cetearyl Alcohol is classified as a fatty alcohol.
Cetearyl Alcohol is a white, waxy, solid material in the form of flakes.
Cetearyl Alcohol is waxy white solid with a mild soapy odor.


Cetearyl Alcohol floats on water.
Cetearyl Alcohol is a mixture of fatty alcohols, consisting predominantly of cetyl (16 C) and stearyl alcohols (18 C) and is classified as a fatty alcohol.
Cetearyl Alcohol is the name given by the INCI (International Nomenclature of Cosmetic Ingredients) to a compound non-ionic surfactant that is a mixture of cetyl alcohol and stearyl alcohol.


Both of these alcohols are fatty alcohols.
The CAS number of Cetearyl Alcohol is 67762-27-0.
Cetearyl Alcohol also known as cetearyl alcohol or cetylstearyl alcohol is a mixture of fatty alcohols, consisting of cetyl and stearyl alcohols.


Cetearyl Alcohol is oil soluble, but it is not water-soluble.
Cetearyl Alcohol has a melting point of 122°F (50°C) and a boiling point: 480.2°F (249°C).
Cetearyl Alcohol is a fatty alcohol that is made up of stearyl alcohols and cetyl alcohol.


Cetearyl Alcohol is a substance present in several cosmetic products.
Cetearyl Alcohol's a waxy white liquid that solidifies at room temperature.
Cetearyl Alcohol is also called "long-chain alcohol" because of its chemical formula.


Fatty alcohols have an even number of carbon atoms and a single alcohol group (-OH) connected to the last carbon.
Cetearyl Alcohol is also called palmityl alcohol and 1-hexadecanol.
Cetearyl Alcohol is a common component in a range of cosmetics and personal care products.


In cosmetic products, Cetearyl Alcohol acts as a stabilizer and emulsifier and prevents products from separating.
On ingredient labels, Cetearyl Alcohol is sometimes listed as C16-18 alcohol, Cetearyl alcohol, or cetyl/stearyl alcohol.
Cetearyl Alcohol is a non-ionic surfactant that performs a variety of functions in the personal care business.


Cetearyl Alcohol is a plant derived fatty alcohol made from a mixture of Cetyl alcohol and Stearyl Alcohol.
Cetearyl Alcohol is all-purpose thickening agent.
Cetearyl Alcohol is a white, waxy solid in flake form.


Cetearyl Alcohol is a vegetable derived blend of cetyl and stearyl fatty alcohol.
Cetearyl Alcohol is composed of fatty alcohols, 70:30 ratio.
C18 weight percentage Cetearyl Alcohol 60-75% and C16 weight percentage cetyl alcohol 25-35%.


Cetearyl Alcohol is HLB 15.5 (creates oil-in-water emulsions but only to a limited degree).
Cetearyl Alcohol is a mixture of fatty alcohols, consisting predominantly of cetyl and stearyl alcohols and is classified as a fatty alcohol.
Cetearyl Alcohol is a white, waxy solid made up of a combination of cetyl alcohol and stearyl alcohol.


Cetearyl Alcohol (CH3 (CH2)nOH) is a mixture of cetyl and stearyl alcohols from vegetable or synthetic sources.
Cetearyl Alcohol is classified as a fatty alcohol.
Cetearyl Alcohol is a white, waxy, solid substance in the form of flakes.


Cetearyl Alcohol is oil soluble but not water soluble.
Cetearyl Alcohol's melting point is 122°F (50°C) and boiling point: 480.2°F (249°C)
Cetearyl Alcohol acts as a consistency building agent thus increasing the viscosity of the system.


Cetearyl Alcohol is usually present in the oil phase in high concentration.
Cetearyl Alcohol is a fatty alcohol derived entirely from vegetable (coconut and/or palm kernel, supplemented with palm oil stearine) feedstocks.


Cetearyl Alcohol is vegetable derived (palm).
Cetearyl Alcohol is an emulsifier is a substance that enables the creation of a seamless mixture from immiscible liquids such as water and oil.
Cetearyl Alcohol is an easy spreading, Colorless liquid fatty alcohol.


Cetearyl Alcohol is the hidden gem your products need!
Addition of an emulsifier into the mixture of water and oil creates an emulsion.
This can be seen in creams, body milks, shaving emulsions, cleansing oils and everything that contains oil and water.
Cetearyl alcohol is 100% of natural origin with waxy consistency.


Cetearyl Alcohol is derived from palmitic acid and is called Cetearyl Alcohol.
Cetearyl Alcohol acts as an emulsifier and is ideal for products which need both emulsifier and thickening agent in one.
Cetearyl Alcohol imparts the firmness to creams and enhances their consistency.


Cetearyl Alcohol is very similar to cetyl alcohol, but it is softer.
Besides being used in creams, body milks and so on, be sure to use Cetearyl Alcohol in shampoos and conditioners as well.
Heat Cetearyl Alcohol to 60 – 70 °C together with the oil phase and make sure it is completely dissolved.


Recommended usage of Cetearyl Alcohol: 1.5% to 5.5% of your lotion or cream recipe.
Cetearyl Alcohol is a plant based product usually extracted from coconut oil.
Cetearyl Alcohol helps to form protective barrier on the skin so water cannot evaporate, thus locking in the moisture.


Cetearyl Alcohol is a fatty alcohol derived entirely from vegetable (coconut and/or palm kernel, supplemented with palm oil stearine) feedstocks.
Cetearyl Alcohol is a white, waxy solid, in flake or bead form, which is used in ointments, creams, conditioners and lotions as a mild vegetable emulsifier, skin softener, conditioner and thickener.


Cetearyl Alcohol is a fatty acid chain derived from either coconut or palm oil to which an alcohol has been added.
Cetearyl Alcohol is a very effective thickener that helps form extremely stable emulsions in water-in-oil (full moisturizer) and oil-in-water (oil-free lotion) preparations.


When one hears ‘alcohol’ usually what comes to mind are rubbing alcohol or grain alcohol....both are very drying on the skin.
Then there are what are known as fatty alcohols which are usually produced from saturated fats in nuts and plants and their effects on the skin are quite different from ethyl alcohol; one of them is Cetearyl Alcohol.


According to the FDA, cosmetic products labeled ‘alcohol free’ may contain cetyl, stearyl, cetearyl, or lanolin alcohols.
Cetearyl Alcohol is a mixture of cetyl and stearyl alcohols that can be derived naturally or synthetically.
Cetearyl Alcohol is a white, waxy solid.


Cetearyl Alcohol is a fatty alcohol used for a wide range of applications.
Cetearyl Alcohol is also referred to as Fatty Alcohols C16-C18, Cetearyl Alcohol, or Cetostearyl Alcohol.
Cetearyl Alcohol mades from palm oil.


Cetearyl Alcohol is a fatty alcohol which is understood to cause contact dermatitis.
Cetearyl Alcohol is white, solid, waxy droplets or flakes, with a characteristic bland odour.
Cetearyl Alcohol's melting point is 50 to 56 degrees celsius.


Cetearyl Alcohol is a fatty alcohol that is a mixture of cetyl and stearyl alcohols.
Cetearyl Alcohol can be derived naturally, as in coconut fatty alcohol, or made synthetically.
According to the U.S. FDA, cosmetic products labeled “alcohol free” are allowed to contain Cetearyl Alcohol, because the effects are so different from skin-damaging forms of alcohol.


As a raw material, Cetearyl Alcohol is a white, waxy solid (often in flake form).
Cetearyl Alcohol is not soluble in water but is soluble in alcohol and oils.
In the majority of skin care formulas, Cetearyl Alcohol is present in under a 5% concentration, although higher amounts are permissible.
Cetearyl alcohol, also known as Cetearyl Alcohol, is a waxy substance made from stearyl alcohol or cetyl alcohol, or both fatty acids.



USES and APPLICATIONS of CETEARYL ALCOHOL:
Cetearyl alcohol has a range of uses in different types of products:
In skin care products, Cetearyl Alcohol can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth.
In personal and hair care products, Cetearyl Alcohol can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.


Cetearyl Alcohol is commonly used as an emulsion stabilizer and thickener.
Cetearyl Alcohol consisting predominantly of cetyl alcohol (C16) and stearyl alcohol (C18), is a fatty alcohol commonly used as an emulsifier and stabilizer in cosmetics, personal care, and pharmaceutical products.


Cetearyl Alcohol helps to blend water and oil, and increases the viscosity and texture of products.
In an emulsion cetearyl alcohol is generally used at around 0.5% to help improve the structure and stability of the oil phase while giving a good skin feel.
Cetearyl Alcohol can also be used up to 15% in a hair conditioner formula to give slip and increase viscosity.


Cetearyl Alcohol is a derivative based on renewable plant raw materials and is mainly used in cosmetic applications.
Cetearyl Alcohol is compatible with a variety of ingredients, and is used in a wide range of products including face creams, hand creams, shampoos, conditioners, and body washes.


Cetearyl Alcohol is typically used as an emulsifier and stabilizer, helping to blend water and oil and increase the viscosity and texture of products.
Cetearyl Alcohol can be used in a variety of cosmetics and personal care products, such as face creams, hand creams, shampoos, conditioners, and body washes.
Cetearyl Alcohol is used in personal care products, mainly skin lotions, hair products, and creams.


Cetearyl Alcohol helps create smoother creams, thicker lotions, and more stable foam products.
Cetearyl alcohol is used to help soften the skin and hair and to thicken and stabilize cosmetic products, like lotions and hair products.
Cetearyl Alcohol is used as an emollient, cetearyl alcohol is considered an effective ingredient for soothing and healing dry skin.


Fatty alcohols such as cetearyl or cetyl alcohol are emollients that do not dry out the skin or have astringent properties like ethanol or isopropyl alcohol.
Cetearyl Alcohol mainly functions as a co-emulsifier, thickener and/or emollient in cosmetic formulations.
Cetearyl Alcohol is an emollient, which means it softens the skin and hair.


Manufacturers also use Cetearyl Alcohol to stabilize emulsions, which are mixes of oil and water.
Cetearyl alcohol is a type of fatty alcohol that companies use to make various cosmetic products.
These include a wide array of toiletries, including hand creams, shampoos, and body washes.


Cetearyl alcohol is used in many cosmetic products since it increases the stability of emulsions.
Cetearyl alcohol constitutes a solid white mass which also serves as a consistency enhancing component.
On the skin Cetearyl Alcohol has a smoothing and non-oily effect.


Cetearyl alcohol is a mixture of stearyl alcohol and cetyl alcohol forming a waxy, white mixture to be used in cosmetics.
Cetearyl Alcohol is used to bring smoothness and thickness to the products while also providing hydrating properties.
While most alcohols are drying for the skin, Cetearyl Alcohol traps water and treats skin dryness.


Cetearyl Alcohol is used as an emulsion stabiliser, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.
Cetearyl Alcohol imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Cetearyl Alcohol is commonly used in hair conditioners and other cosmetic products for it's emollient properties.


Use from 1% to 25% inclusion by weight.
Cetearyl Alcohol is used as an emollient.
Cetearyl Alcohol is perfect for use in Baby Care products like Shampoo and skincare products due to its non-sensitizing properties.


Cetearyl Alcohol acts as an emulsifier and stabilizer.
This means that is it used for blending ingredients that do not normally mix (such as water and oil).
Cetearyl Alcohol can also be used to thicken up the consistency of a product.


Cetearyl Alcohol is a common emulsifier used in a vast array of cosmetics.
Cosmetic creams and lotions are often composed of water and oil-based ingredients, which are held together by substances called emulsifiers.
Without emulsifiers, the formula would separate, causing oil droplets to float on top of the water.


Cetearyl Alcohol is used for viscosity regulations in cosmetic oil-in-water emulsions.
When used in cosmetic products, Cetearyl Alcohol acts as an emulsifier and stabilizer and prevents products from separating.
Cetearyl alcohol is used to help soften the skin and hair and to thicken and stabilize cosmetic products, like lotions and hair products.


As an emollient, Cetearyl Alcohol is considered an effective ingredient for soothing and healing dry skin.
Beyond cetearyl alcohol’s emollient ability to provide a softening and smoothing effect, it is also used as a carrying agent for other ingredients.
Additionally, Cetearyl Alcohol can be used to alter the thickness of a formula or to influence the foaming capacity of a cleanser.


Cetearyl alcohol (white pellets) is a cosmetic wax and is used as a co-emulsifier and thickener in conditioners and some creams.
Cetearyl alcohol is a fatty alcohol and is the main ingredient in many skincare, haircare, and personal care products.
Cetearyl Alcohol improves the consistency of the formula and assists in creating more stable foam-based products.
Cetearyl Alcohol also acts as an emulsifying agent in cosmetic products.


Cetearyl Alcohol is most commonly used in all kinds of cosmetic products.
Cetearyl Alcohol can also be successfully used in other industrial sectors.
Cetearyl Alcohol is found in a number of detergents – it is responsible for foam stabilisation in products intended for cleaning hard surfaces.


In the pulp and paper industry, Cetearyl Alcohol is a component of emulsion skimmers.
Cetearyl Alcohol is a component of processing fluids, and in the paint and varnish industry serves as a component of open-time regulators (so-called OTE).
Cetearyl Alcohol can be used as an emulsion stabiliser and thickening agent to keep product ingredients from separating, as a fragrance component, opacifying agent, surfactant/emulsifying agent, surfactant/foam booster, as well as an aqueous and non-aqueous viscosity-increasing agent.


Cetearyl Alcohol is used as a food ingredient too, and may be employed as a flavouring agent or in food decorations.
Cetearyl Alcohol, for example, is used in the pictures or colourful lettering on various varieties of sweets or gum.
In industrial applications, Cetearyl Alcohol is utilised as a lubricant for nuts and bolts in manufacturing applications and is a main component in fuels, chemical intermediates, and plasticizers.


Cetearyl Alcohol could be used in any product that you apply to your hair or skin and is commonly found in lotions, shampoos creams, and moisturizers.
Cetearyl Alcohol is used in emulsions as a stabilizer, opacifier, and can support foam in surfactant systems.
Cetearyl Alcohol provides an emollient feel to skin and hair. Cetearyl Alcohol will provide viscosity increase to all systems.


Cetearyl Alcohol can be used in all personal care products including skin care, hair care and color cosmetics.
Cetearyl Alcohol is used as an emulsion stabilizer, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.
Cetearyl Alcohol imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.


Cetearyl Alcohol is commonly used in hair conditioners and other hair products.
Cetearyl Alcohol stabilises emulsions, enhances viscosity and consistency (adds body and thickness), has foam boosting properties and acts as a co-emulsifier.
Cetearyl Alcohol imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous (oil only) formulations.


Cetearyl Alcohol is also commonly used in hair conditioners and other hair products.
Cetearyl Alcohol is intended for external use only.
Cetearyl Alcohol is derived from nature’s delicious and heavenly tasting coconuts, corn, and palm kernels, this amazing ingredient is used as an emollient in skincare and cosmetic formulations and is one of the best stabilizers available in the market these days.


In the pharmaceutical and cosmetics industry, Cetearyl Alcohol functions as an emulsion stabilizer; opacifying agent; surfactant - foam booster; and viscosity increasing agent.
Cetearyl Alcohol is often used in creams and lotions.


Cetearyl Alcohol is fatty alcohol blend of ratios of cetyl and stearyl alcohols from vegetable sources.
Cetearyl Alcohol is used in many industries but predominantly in personal care.
Cetearyl Alcohol is a multi-purpose, vegetable-derived blend of cetyl and stearyl fatty alcohol that is usually used as an emollient, emulsifier, and thickener in skincare formulations.


Cetearyl Alcohol comes in a white, waxy and solid substance that can be melted for various purposes.
As an emulsifier, Cetearyl Alcohol keeps the oil and water from separating, thus allowing them to mix whilst as a thickener, it helps to transform the viscosity, add shape, and expand a product’s foaming capacity such as in lotions and shampoos.


Contrary to its name, Cetearyl Alcohol is not actually an 'alcohol', like the ethyl alcohol that we know to be drying on the skin but is in fact a conditioner that helps to soften skin and hair.
Furthermore, Cetearyl Alcohol is not a liquid that most people can initially think of, rather it is a mixture of pastilles and irregular, waxy flakes.


Consequently, Cetearyl Alcohol has become a valuable addition to a multitude of applications including commercial and homemade moisturisers, shampoo/conditioner, and facial cleansers.
Cetearyl Alcohol is used lotions, creams, hair shampoos, conditioners, body washes, makeup products.


Cetearyl Alcohol increases viscosity and is used as a stabiliser in conditioners, creams and lotions.
Cetearyl Alcohol is a very effective thickener that helps form extremely stable emulsions in water-in-oil and oil-in-water preparations.
Cetearyl Alcohol is used as a co-emulsifier and imparts moisturising feel and lubricity to the skin.


Cetearyl Alcohol is suitable for use in creams, ointments, lotions, hair conditioners, body scrubs, butters, balms etc.
Cetearyl Alcohol is used as a thickener, co-emulsifier and stabilizer in both oil-in-water and water-in-oil emulsions.
Cetearyl Alcohol may also be used in anhydrous formulations.


Cetearyl Alcohol is used as an emulsion stabilizer, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.
Cetearyl Alcohol imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Cetearyl Alcohol is commonly used in hair conditioners and other hair products.


Cetearyl Alcohol is used as emulsion stabilizer & foam boosting surfactant.
Cetearyl Alcohol is commonly used in cosmetic products like body lotions, hair products and creams.
Cetearyl Alcohol helps to make products smoother, thicker and more stable.


In the pharmaceutical and cosmetic industry, Cetearyl Alcohol acts as an emulsion stabilizer; matting agent; Surfactant - foam booster; and viscosity increasing agent.
Cetearyl Alcohol is often used in creams and lotions.


Cetearyl Alcohol is also functions as a co-emulsifier.
Cetearyl Alcohol is a waxy white solid with a mild soapy odor at room temperature, and finds widespread application as an opacifier, emulsion thickener/bodifier and stabilizer, viscosity stabilizer, and rinse-out hair conditioning component.


Cetearyl Alcohol works to emulsify your water and oil components, opacify your recipe and give a smooth, emolient feel on the skin.
Cetearyl Alcohol is ideal in a number of applications, including creams and lotions, body butters, solid conditioning bars and balms.
In medicine, Cetearyl Alcohol can be directly used for W/O emulsifier paste, ointment matrix, etc, hair care, skin care.


Cetearyl Alcohol is also used as a raw material for Textile Auxiliaries in industry.
Cetearyl Alcohol is a waxy white solid with a mild soapy odor at room temperature, and finds widespread application as an opacifier, emulsion thickener/bodifier and stabilizer, viscosity stabilizer, and rinse-out hair conditioning component.


Cetyl alcohol: emollient
Cetearyl Alcohol: emollient, emulsifier
Cetearyl Alcohol may be used in conjunction with emulsifying wax.


Cetearyl Alcohol is used as an emollient, emulsifier, thickener and as a carrying agent for other ingredients.
Cetearyl Alcohol is used for salves, medical skin care products and textile auxiliaries among others.
Cetearyl Alcohol also appears in the preparation of solid lipid nanoparticles, nanostructured lipid carriers and nanoemulsion of lornoxicam for transdermal delivery.


Cetearyl Alcohol acts as an emollient, texture enhancer, foam stabilizer.
Cetearyl Alcohol is used all-purpose thickening agent.
Cetearyl Alcohol is NF grade, 95% active components. Cetearyl Alcohol is composed of fatty alcohols, 50:50 ratio.


Cetearyl Alcohol is white flakes or pastilles, mild characteristic odor.
Cetearyl Alcohol is not soluble in water.
Cetearyl Alcohol is partially soluble in alcohol. (creates oil-in-water emulsions but only to a limited degree)


Cetearyl Alcohol is used for external use only.
Cetearyl Alcohol is used as surfactants, hair shampoos, conditioners, body washes, makeup products.
In topical formulations, Cetearyl Alcohol will increase viscosity and acts as an emulsifier in water-in-oil and oil-in-water emulsions.


Cetearyl Alcohol stabilizes an emulsion and also acts as a co-emulsifier, thereby reducing the total amount of surfactant required to form a stable emulsion.
Cetearyl Alcohol is used as opacifying agent, foam-boosting surfactant, emulsion stabilizer, as well as non-aqueous and aqueous viscosity incline agent.
Unlike the skin-aggravating/drying forms of alcohol (typically listed as SD alcohol, denatured alcohol, or isopropyl alcohol), Cetearyl Alcohol is an emollient that is gentle, safe, and good for skin.


Beyond Cetearyl Alcohol’s emollient ability to provide a softening and smoothing effect, it is also used as a carrying agent for other ingredients.
Additionally, Cetearyl Alcohol can be used to alter the thickness of a formula or to influence the foaming capacity of a cleanser.
Cetearyl Alcohol is almost always combined with similar-feeling ingredients to create a product’s texture and slip sensation when applied to skin.


-Manufacturers also use Cetearyl Alcoholto alter the texture and performance of their formulas.
They may add it to products to:
*create an emulsion, which is a blend of oils and water
*stabilize foams
*increase foaming capacity
*change the thickness of liquids


-Applications of Cetearyl Alcohol:
*shampoos, conditioners, serums, hair masks,
*preparations for hair colouring,
*hair gels,
*hand, foot and body creams
*eye creams,
*anti-wrinkle creams,
*sunscreens,
*after-shave creams,
*self-tanners,
*lotions, moisturisers (including for children),


-Applications of Cetearyl Alcohol:
*preparations for washing face and body,
*peeling scrubs,
*anti-acne preparations,
*make-up bases, foundations,
*mascara, eyeliners,
*lipsticks, lip balms,
*make-up removers,
*depilation preparations,
*lubricants, metalworking fluids.


-Uses of Cetearyl Alcohol:
*Thickener and stabiliser in emulsions
*Non-greasy emollient
*Increases slip and spreadability
*Improves texture and overall feel of products


-Applications of Cetearyl Alcohol:
*Consumer Products
*Blends
*Detergents
*Ethoxylation
*Household Cleaners
*Sulfonation
*Surfactants
*Lubricants, Fluids & Oilfield
*Esters


-Applications of Cetearyl Alcohol:
*Personal Care
*Blends
*Cosmetics
*Deodorant
*Esters
*Haircare
*Skincare
*Suncare
*Surfactants


-Application of Cetearyl Alcohol:
Emulsion stabiliser, structurising agent, emollient (for soft, melting texture if used at correct levels - too much will make the product very waxy).
Oil soluble - heat and melt in the oil phase.



PROPERTIES AND USES OF CETEARYL ALCOHOL:
Cetearyl Alcohol is an organic compound obtained from saturated fatty alcohols of coconut.
Since it is lighter than cetyl alcohol, Cetearyl Alcohol can be used in baby care and sensitive skin products.
Cetearyl Alcohol is used as emulsion stabilizer, opacifying agent, foam strengthening surfactant, viscosity increasing agent.



PROPERTIES AND APPLICATIONS OF CETEARYL ALCOHOL:
Product advantages:
*effective emollient and conditioner for washing and care cosmetics for skin and hair,
*provides smoothness of skin and hair,
*restores hair elasticity and softness,
*rheology modifier (improves the consistency of preparations), foam stabilizer,
*stabilizes emulsions such as oil in water (O/W), water in oil (W/O) and anhydrous preparations,
*does not cause allergic reactions,
*based on renewable plant raw materials.



CETEARYL ALCOHOL WITH:
*skin lotions
*moisturizers
*skin creams
*sunscreen
*shampoo
*conditioners
*hair removal creams
*hair mousse
*anti-frizz hair cream
*hair dye
*mascara



CETEARYL ALCOHOL AT A GLANCE:
Cetearyl Alcohol at a Glance
*Fatty alcohol with emollient (softening/smoothing) properties for skin
*Known to be gentle and safe (unlike skin-damaging/drying forms of alcohol such as SD or denatured)
*May also be used to alter the thickness of a formula or influence the foaming capacity of a cleanser
*Can be derived naturally, as in coconut fatty alcohol, or made synthetically
*As a raw material, it is a white, waxy solid (often in flake form)



BENEFITS OF CETEARYL ALCOHOL:
*Encourages even application
*Prevent separation of ingredients
*Thickens formula
*Softens the skin



FEATURES AND BENEFITS OF CETEARYL ALCOHOL:
*Biodegradable
*Bodying Agent
*Emollient
*Emulsion Stabilizing Agent
*Feel Modification/Enhancement
*Opacifier
*Plant Derived / Vegetal Based
*Viscosity Stabilizer



CETEARYL ALCOHOL AT A GLANCE:
*Fatty alcohol with emollient (softening/smoothing) properties for skin
*Known to be gentle and safe (unlike skin-damaging/drying forms of alcohol such as SD or denatured)
*May also be used to alter the thickness of a formula or influence the foaming capacity of a cleanser
*Can be derived naturally, as in coconut fatty alcohol, or made synthetically
*As a raw material, it is a white, waxy solid (often in flake form)
Cetearyl Alcohol description



WHY IS CETEARYL ALCOHOL IN COSMETICS AND PERSONAL CARE PRODUCTS?
Cetearyl Alcohol and the other fatty alcohols keep an emulsion from separating into its oil and liquid components.
These ingredients are also used to alter the thickness of liquid products and to increase foaming capacity or to stabilize foams.



BENEFITS AND USES OF CETEARYL ALCOHOL:
You can find Cetearyl Alcohol in your lotions, hair removal creams, sunscreens, makeup items, shampoos, conditioners, setting sprays, etc.
You can add Cetearyl Alcohol to your moisturizers to make them more hydrating and nourishing.
Cetearyl Alcohol is a powerful emulsifier and can be used in any cosmetic formulation.
If you want a foamy and opaque shampoo that hydrates your tresses, consider adding this to Cetearyl Alcohol.
Cetearyl Alcohol will provide excellent shine, slip, and conditioning to your hair.



FUNCTIONS AND EFFECTS OF CETEARYL ALCOHOL IN COSMETICS:
Functions and effects of Cetearyl Alcohol in cosmetics:
Cetearyl Alcohol is a popular alcohol added to many cosmetic formulations.
Cetearyl Alcohol's action is based on the function of the solvent of active substances, the function of a preservative or emulsifier.
Moreover, Cetearyl Alcohol has other important functions in cosmetic products:
*Bodying agent:
As a substance with emulsion stabilising properties, Cetearyl Alcohol gives the desired form of a cosmetic product.
Cetearyl Alcohol is responsible for the stabilisation of oil-in-water emulsions, water-in-oil emulsions and water-free formulations.
Cetearyl Alcohol directly affects the viscosity of a product, giving it appropriate performance and application properties.
Cetearyl Alcohol also provides and improves spreadability and can support foaming.

*Emollient:
Cetearyl Alcohol is included in a range of cosmetics designed for skin and hair care. It creates a so-called occlusive layer on the surface.
Cetearyl Alcohol prevents excessive evaporation of water, thus keeping skin and hair soft and smooth.
For this reason, Cetearyl Alcohol is dedicated primarily for use on dry skin.
As an emollient, Cetearyl Alcohol is indirectly also a cosmetic ingredient with a moisturising effect.
Cetearyl Alcohol reduces the drying effect of anionic surfactants – leaves the skin moisturised and covered with a protective layer.

*Regreasing substance:
Cleansing cosmetic products remove sebum and epidermal fatty substances from the skin surface.
While Cetearyl Alcohol is desirable to thoroughly clean the skin, it also allows unwanted substances from the environment to penetrate into the deeper layers of the skin.
For this reason, regreasing substances, such as Cetearyl Alcohol, are commonly added to cosmetics, creating a specific protective layer.



FEATURES OF CETEARYL ALCOHOL:
-Excellent emulsifying properties, effectively blending water and oil to create a more uniform and smooth product texture.
-Good stability, maintaining the quality and viscosity of the product and extending the shelf life.
-Compatibility with other ingredients, allowing it to work well in a variety of cosmetics and personal care product formulations.



CETEARYL ALCOHOL MARKET ANALYSIS:
The global Cetearyl Alcohol market is projected to register a CAGR of 3.78% over the next five years.
Cetearyl Alcohol is a versatile ingredient used in a wide range of applications such as food, cosmetics, pharmaceuticals, chemicals, and material industries.
Cetearyl Alcohol's popularity is expected to increase in various industries during the forecast period due to its numerous applications.

In the personal care industry, Cetearyl Alcohol is widely used in shampoos, conditioners, soaps, body washes, and other cosmetic products as a surfactant, thickening agent, and emollient.
The demand for natural ingredients in cosmetic and personal care products has been on the rise in recent years.

Market players are now extracting stearyl alcohol from natural sources such as coconut oil to cater to the increasing demand for natural products.
As a result, the demand for Cetearyl Alcohol in the personal care industry is likely to grow over the medium term.
Cetearyl Alcohol is known to help soften the skin and hair, and it also acts as an effective ingredient for soothing and healing dry skin.

With the increasing pollution and rising disposable income, consumer spending on cosmetics and personal care products is increasing.
According to the Office for National Statistics data 2021, consumer spending on personnel in the United Kingdom was USD 33,554.8 million.

This trend is expected to continue, which will lead to an increase in the demand for Cetearyl Alcohol in the market over the medium term.
In conclusion, the demand for Cetearyl Alcohol is expected to grow over the medium term, driven by the increasing demand for natural ingredients and the functional benefits of the alcohol in various industries, particularly the personal care industry.



BENEFITS OF CETEARYL ALCOHOL:
Cetearyl Alcohol helps to stabilise your product and can also improve the skin feel and texture.
Cetearyl Alcohol has a low odour and colour which makes it suitable for a wide range of applications.
Cetearyl Alcohol works well with non-ionic, anionic and cationic primary emulsifiers to build a strong and cosmetically appealing emulsion.



BENEFITS OF CETEARYL ALCOHOL:
*Cetearyl Alcohol is non-gelling thickener, viscosity and consistency enhancer
*Cetearyl Alcohol works also in water-free products like lipsticks
*Cetearyl Alcohol acts as co-emulsifier at concentrations under 2%
*Cetearyl Alcohol has emollient, moisturizing, and foam boosting properties



COSMETIC PRODUCTS CONTAINING CETEARYL ALCOHOL:
*hair shampoos,
*hair conditioners,
*cleansing milks and oils,
*shower gels,
*body lotions,
*hand and foot creams,
*aftershave creams,
*body scrubs,
*self-tanners,
*anti-wrinkle creams,
*hair removal preparations,
*mascaras,
*lip balms,
*anti-acne preparations.



FUNCTIONS OF CETEARYL ALCOHOL IN COSMETIC PRODUCTS:
*EMULSION STABILISING:
Supports emulsion formation and improves product stability
*OPACIFYING:
Reduces transparency and translucency by clouding the product

*SKIN CONDITIONING - EMOLLIENT:
Softens and smoothens the skin
*SURFACTANT - CLEANSING:
Surface-active agent to clean skin, hair and / or teeth

*SURFACTANT - EMULSIFYING:
Allows the formation of finely dispersed mixtures of oil and water (emulsions)
*SURFACTANT - FOAM BOOSTING:
Improves foam quality by increasing volume, structure and / or durability
*VISCOSITY CONTROLLING:
Increases or decreases the viscosity of cosmetic products



BENEFITS OF CETEARYL ALCOHOL:
*Moisturises the skin:
In moisturisers, the emollient properties found in Cetearyl Alcohol help build an oily layer that traps water molecules in the skin.
As Cetearyl Alcohol is known, dry skin can be caused by low air moisture, irregular weather changes, and more.
This makes the skin to appear lustreless.
With Cetearyl Alcohol for skin in your homemade products, you can be confident that not only your skin will all the beauty benefits but it is also safe from the damaging effects of mass-produced cosmetic products.

*Emulsifies:
Cetearyl Alcohol in skincare goods works as an emulsifier that stabilises ingredients so that when you apply it to your skin or hair, they do not separate.
Moreover, Cetearyl Alcohol thickens the product's formula.

*Aids in even application:
Cetearyl Alcohol helps spread the product evenly on your skin, resulting in overall effectiveness.



IS CETEARYL ALCOHOL BAD FOR SKIN?
Cetearyl Alcohol is a fatty alcohol which helps to trap water and leave the skin feeling smoother.
Cetearyl Alcohol is not the same as other alcohols like ethyl or rubbing alcohol.
Cetearyl Alcohol is known to effectively condition and soften the skin and hair.



WHAT IS CETEARYL ALCOHOL USED FOR?
Cetearyl alcohol is usually known as an inactive ingredient because it does not extend help to the therapeutic purposes of a cosmetic product, but mostly just to keep everything together.
Cetearyl Alcohol binds the products together and prevents them from separating.
Uses of Cetearyl Alcohol extend further in providing thickness and much-needed bulk to cosmetic and personal care products.

*Skin care:
Cetearyl Alcohol is used in a range of moisturizers and skin lotions because it imparts few moisturizing properties apart from binding the cream together.
Further, Cetearyl Alcohol heals dry skin – making cetearyl alcohol skincare quite popular

*Hair care:
Cetearyl Alcohol treats hair to make them soft while trapping in water to hydrate them.
Cetearyl Alcohol is commonly found in shampoos and anti-frizz hair creams.
Is cetearyl alcohol bad for hair?
The answer is no, as it is not drying like other types of alcohols



FUNCTIONS OF CETEARYL ALCOHOL:
*Emollient:
Cetearyl Alcohol softens and softens the skin
*Emulsifying agent:
Cetearyl Alcohol promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Emulsion Stabilizer:
Cetearyl Alcohol aids the emulsification process and improves emulsion stability and shelf life
*Foam Sinergist:
Cetearyl Alcohol improves the quality of foam produced by increasing one or more of the following properties: volume, texture and/or stability
*Opacifier:
Cetearyl Alcohol reduces the transparency or translucency of cosmetics
*Surfactant:
Cetearyl Alcohol reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
*Viscosity control agent:
Cetearyl Alcohol increases or decreases the viscosity of cosmetics



WHAT DOES CETEARYL ALCOHOL DO IN A FORMULATION?
*Bulking
*Skin conditioning
*Smoothing
*Surfactant
*Viscosity controlling



WHAT DOES CETEARYL ALCOHOL DO IN SKIN AND HAIR CARE?
Cetearyl alcohol has emollient properties, which means it softens and smooths the skin and hair.



HOW TO USE CETEARYL ALCOHOL FOR HAIR?
As mentioned before Cetearyl alcohol is a fatty alcohol that is used as an emollient, thickening agent, and emulsifier in hair care products.
Cetearyl Alcohol is used in to give stability to the formula and to enhance the texture and feel of the product.
Cetearyl Alcohol has gained popularity and can be seen in most shampoos, conditioners, hair creams, hair mousses, etc. Cetearyl Alcohol does not dry the hair; making it ideal for daily use.
Considering it’s derived from natural components Cetearyl Alcohol is non-toxic and can be safely used on your hair.
This non-drying fatty alcohol, Cetearyl Alcohol, improves the hydration level of the strands whilst reducing frizz, and thus smoothens the hair’s texture.



OTHER INGREDIENTS IT IS COMPATIBLE WITH:
Cetearyl alcohol works well with most emulsifiers as well as other hair care ingredients.
However, Cetearyl alcohol should not be used in conjugation with Ceteareth-20 as it is comedogenic and can clog the pores.



HOW TO USE CETEARYL ALCOHOL?
Heat the water phase and oil phase separately to 54 degree
Melt our Cetearyl Alcohol and add it to the emulsion.
Blend Cetearyl Alcohol well until an emulsion is formed.
Finally, adjust the pH.
Emulsion stabiliser, co-emulsifier and viscosity increasing agent that provides an emollient skin feel.
Recommended topical usage levels of 2-30%.



CETEARYL ALCOHOL FOR HAIR:
Cetearyl Alcohol is great for hair as it helps to moisturise, hydrate, and soften hair.
Cetearyl Alcohol is used for its conditioning, detangling and also anti-frizz properties.
Cetearyl Alcohol is commonly used in hair conditioners to help thicken the product and add moisture to the hair.



CETEARYL ALCOHOL FOR SKIN:
Cetearyl Alcohol is commonly used in skincare products like moisturisers, creams and lotions.
Cetearyl Alcohol is an emollient as it helps moisturise and soften the skin, but it also locks in the moisture.
Cetearyl Alcohol adds a wonderful, thick and creamy skin feel to skin products.
Cetearyl Alcohol feels lighter than a product thickened with wax.



PRODUCTS THAT CAN CONTAIN CETEARYL ALCOHOL:
Cetearyl alcohol is an ingredient in many products, such as:
*moisturizing creams and lotions
*shampoo
*conditioners
*exfoliants
*sunscreens
*hair sprays
*hair dyes
*hair mousse
*facial cleansers
*makeup, including foundations, lipstick, and mascara
*shaving creams
*body washes and bar soaps
*baby wipes
*antiperspirants and deodorants
*toothpaste
*nail treatment
*hand sanitizer
*body oil
*mouthwash
*fragrance
*glitter



HOW TO USE CETEARYL ALCOHOL:
Cetearyl Alcohol is normally used at concentrations of 1-25% in your recipe.
Cetearyl Alcohol will help stabilise and thicken emulsions, but it isn’t an emulsifier.
Don’t try to use it as an emulsifying wax, Cetearyl Alcohol won’t work!
Cetearyl Alcohol needs to be melted before it is added to your recipe.
You can melt Cetearyl Alcohol and mix it into the oil phase of your recipe.



HOW CETEARYL ALCOHOL WORKS:
Cetearyl Alcohol works as a stabilizer and prevents the oil and water from separating.
Cetearyl Alcohol is a surfactant that builds foam and thickness in the products.



CONCENTRATION AND SOLUBILITY OF CETEARYL ALCOHOL:
The recommended concentration of use is 0.5%-10%.
Cetearyl Alcohol is soluble in alcohols and oils and is insoluble in water.



OCCURRENCE IN OTHER PRODUCTS:
Medicinal products and medical devices to apply at the eye or for wound treatment, technical cooling lubricants, textiles, evaporation protection agents



BACKGROUND INFORMATION OF CETEARYL ALCOHOL ON USE IN COSMETICS:
Cetearyl alcohol (cetylstearyl alcohol) is a mixture of cetyl alcohol (hexadecanol) and stearyl alcohol (octadecanol).
This concerns so-called fatty alcohols since the two components are frequently produced by a reduction of the corresponding fatty acids.



WHAT IS MASS BALANCE?
Cetearyl alcohol almost always comes from palm oil, as it is nearly impossible to source cetearyl alcohol from other plants. There is no producer that will guarantee cetearyl alcohol comes from non-palm sources.
It is also difficult to make emulsions without cetearyl or cetyl/stearyl alcohol.
Therefore, it is critical to use cetearyl alcohol from Mass Balance palm certified sources as a step towards sustainable palm use.
Learn more about sustainable palm oil and mass balance here.



WHAT DOES CETEARYL ALCOHOL DO IN MY HAIR PRODUCTS?
Cetearyl alcohol is a chemical produced by mixing two fatty alcohols: cetyl alcohol and stearyl alcohol.
Both components occur naturally in animals or plants.

Cetearyl alcohol is one of the most important ingredients in cosmetics.
Cetearyl Alcohol is an emulsifier, which means it prevents your product from separating into oils and liquids.
In addition to that, Cetearyl Alcohol is great to make the texture of the product thicker, smoother, and nicer to touch.



IS CETEARYL ALCOHOL THE SAME AS CETYL ALCOHOL?
Cetearyl alcohol, as we described before, consists of two different fatty alcohols.
The names sound similar — cetearyl and cetyl — but this is where similarities end.
Addressing the most popular question we get: no, you can’t use cetyl alcohol instead of cetearyl alcohol.
The former needs an additional ingredient to activate.



IS CETEARYL ALCOHOL BAD FOR HAIR?
You definitely heard at least one that you should avoid skin and hair products containing alcohol.
That’s right, you should.
Lots of different alcohols, like ethanol, are drying for your skin and hair.
Cetearyl alcohol is a different story.

Cetearyl alcohol, being a fatty alcohol, has a completely different chemical structure and doesn’t “behave” like regular alcohol.
Cetearyl Alcohol doesn’t dry and tighten the skin, doesn’t damage your hair, and is not likely to cause irritation.
According to the FDA, even products labeled as “Alcohol-free” are allowed to include cetearyl alcohol.
The Cosmetic Ingredient Review (CIR) Expert Panel has also deemed this ingredient safe to use.



BENEFITS OF CETEARYL ALCOHOL FOR SKIN AND HAIR CARE:
Cetearyl alcohol is a multifunctional ingredient that improves the feel, performance and stability of products.
For skincare products, the addition of cetearyl alcohol makes luxurious, rich formulas, reducing potential stickiness from oil and butters and creating smooth, light, moisturisers.
In haircare, Cetearyl Alcohol is an important ingredient for increasing spreadability and slip which allows products to glide through hair.



HOW TO USE CETEARYL ALCOHOL IN FORMULATIONS:
Cetearyl alcohol is commonly used as a co-emulsifier and thickener to help stabilise emulsion.
Cetearyl Alcohol can also be used to supplement the oil phase by reducing the amount of heavy emollients and improving the texture of products.
Substituting a percentage of the butter in a formula with cetearyl alcohol will give the moisturiser a pleasant skin-feel, whilst still maintaining its body and texture.



CETYL ALCOHOL VS. CETEARYL ALCOHOL:
The main difference between cetyl alcohol and cetearyl alcohol is that cetyl alcohol is a single chemical compound, whereas Cetearyl Alcohol is made up of a few different chemical compounds.
If you use cetyl alcohol instead of Cetearyl Alcohol your finished product will have less body, and feel slightly thinner.
However, both alcohols can be used as thickeners and stabilisers.



WHAT IS THE DIFFERENCE BETWEEN CETYL ALCOHOL AND CETEARYL ALCOHOL:
The key difference between cetyl alcohol and Cetearyl Alcohol is that cetyl alcohol is a single chemical compound, whereas Cetearyl Alcohol is a mixture of chemical compounds.
Cetyl alcohol is a type of fatty alcohol having the chemical formula CH3(CH2)15OH.
Cetearyl Alcohol, on the other hand, is a mixture of fatty alcohols containing cetyl (carbon-16) compounds and stearyl alcohols (carbon-18) compounds.

What is Cetyl Alcohol?
Cetyl alcohol is a type of fatty alcohol having the chemical formula CH3(CH2)15OH.
It occurs as a waxy white solid or in the form of flakes at room temperature.
This substance has a very faint, waxy odour as well.

The name of this compound comes from the term “Cetus,” which means “whale oil” in Latin.
Cetyl alcohol was first isolated from whale oil.
Cetyl alcohol was first prepared from sperm whale oil by the French chemist Michel Chevreul.

He heated the spermaceti (a waxy material obtained from whale oil) in the presence of caustic potash (potassium hydroxide).
This heat treatment produced flakes of cetyl alcohol which were left behind for cooling.
However, the modern method of cetyl alcohol production involves the reduction of palmitic acid obtained from palm oil.

This substance is insoluble in water and very soluble in ether, benzene, and chloroform.
It is also soluble in acetone and slightly soluble in alcohol.
There are many uses of cetyl alcohol, including its use in the cosmetic industry as an opacifier in shampoos, as an emollient, emulsifier, or thickening agent in skin creams and lotions.

Further, this substance is useful as a lubricant for nuts and bolts.
It is an active ingredient in some liquid pool covers, as well.
Apart from that, we can use this substance as a non-ionic co-surfactant in emulsion applications.

Some people can be sensitive to cetyl alcohol, mainly those suffering from eczema.
However, this sensitivity comes mainly due to the impurities that are present in cetyl alcohol.
But sometimes, this substance is used in some medications as well.

What is Cetearyl Alcohol?
Cetearyl Alcohol is a mixture of fatty alcohols containing cetyl (carbon-16) compounds and stearyl alcohols (carbon-18) compounds.
The chemical formula for this mixture of compounds can be given as CH3(CH2)nCH2OH, where n can be a variable number typically ranging from 14 to 16.
The other names for this compound mixture include cetyl-stearyl alcohol, ceto-stearyl alcohol, and cetyl/stearyl alcohol.

This mixture of compounds is important as an emulsion stabilizer, opacifying agent, and foam-boosting surfactant.
It is also important as an aqueous and non-aqueous viscosity-increasing agent.
Cetearyl alcohol leaves an emollient feel on the skin and is useful in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Commonly, this mixture is used in hair conditioners and other hair products.

What is the Difference Between Cetyl Alcohol and Cetearyl Alcohol?
Cetyl alcohol can be described as a type of fatty alcohol having the chemical formula CH3(CH2)15OH.
Cetearyl Alcohol or cetearyl alcohol can be described as a mixture of fatty alcohols containing cetyl (carbon-16) compounds and stearyl alcohols (carbon-18) compounds.

The key difference between cetyl alcohol and Cetearyl Alcohol is that cetyl alcohol is a single chemical compound, whereas Cetearyl Alcohol is a mixture of chemical compounds.
Cetyl-stearyl alcohol is a fatty alcohol in solid waxy pastille form, white in color with a neutral aroma.
This raw material, also referred to as C16-18, cetostearyl, or cetearyl alcohol, is a staple ingredient in cosmetic and personal-care formulations.

Through the combination of cetyl and stearyl fatty alcohols, as it name suggests, this ingredient is created and most known to stabilize oil-in-water and water-in-oil emulsions, add opacity to a product, increase or stabilize the level of foam, and raise the viscosity of a liquid.
Fatty alcohols, unlike ethanol alcohols, are natural emollients and preserve moisture in the skin and hair.
Cetyl-stearyl alcohol is used in the manufacturing of a wide range of cosmetic such as body lotions, moisturizers, creams, shampoo, conditioner, mascara, lipstick, hair dyes, to name a few.



PHYSICAL and CHEMICAL PROPERTIES of CETEARYL ALCOHOL:
Appearance: White granule
Color(APHA): ≤10
Acid Value: ≤0.1 mg KOH/g
Saponification Value: ≤0.5 mg KOH/g
Hydroxyl Value: 205-220 mg KOH/g
Iodine Value: ≤0.5gi/100g
Total alcohol: ≥98%
C16/C18 ratio: 30/70; 35/65; 50/50
Boiling Point: 249°C
Melting Point: 50°C
pH: 6.0
Viscosity: 53 cP
InChIKey: UBHWBODXJBSFLH-UHFFFAOYSA-N
Boiling Point: 515.169°C at 760 mmHg
Melting Point: 51-53°C

Flash Point: 132.853ºC
Purity: 98%
Density: 0.842 g/cm3
Solubility: Soluble in Chloroform (Slightly),
Methanol (Slightly, Sonicated)
Appearance: White to Off-white Solid
Storage: Store at 2-8°C under inert atmosphere
Assay: 99%min
EINECS: 267-008-6
Refractive Index: 1.46
Appearance: White beads
Charge: Non-ionic
Solubility: Oil
Melting point: 45 - 50°C
Usage rate: 1 - 15%
Vegan: Yes

Melting point: 48 to 56 °C (118 to 133 °F; 321 to 329 K)[1]
Molecular Weight: 512.9
Hydrogen Bond Donor Count: 2
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 30
Exact Mass: 512.55323154
Monoisotopic Mass: 512.55323154
Topological Polar Surface Area: 40.5 Ų
Heavy Atom Count: 36
Formal Charge: 0
Complexity: 267
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0
Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 2
Compound Is Canonicalized: Yes

Formula: C34H72O2
Appearance: white waxy solid
Mol weight: 512.94
Purity: 99%
% Cetyl alcohol: 45-55%
% Stearyl alcohol: 45-55%
CAS no: 67762-27-0
Density: 0.811
Melting Point: 50-54 C
HLB: 15.5
Solubility: insoluble in water
appearance: waxy solid,
colour from white to light yellow,
solidification point: from 50 to 54 ᵒC,
carbonyl value: max. 200 mg/kg,
iodine value: max. 1.0 g I2/100 g.

Appearance: White to Off-White Solid
Melting Point: 51 - 53°C
Molecular Weight: 512.93
Storage: 4°C
Solubility: Chloroform (Slightly), Methanol (Slightly, Sonicated)
Molecular Formula: C18H38O.C16H34O
Molar Mass: 512.941
Density: 0.8[at 20℃]
Melting Point: 51 - 53°C
Boling Point: 330.79℃[at 101 325 Pa]
Flash Point: 132.853°C
Water Solubility: 72.197μg/L at 25℃
Solubility: Practically insoluble in water, soluble in ethanol (96 per cent) and in light petroleum.
When melted, it is miscible with fatty oils, with liquid paraffin and with melted wool fat.
Vapor Presure: 0.001Pa at 25℃
Appearance: Solid
Color: White to Off-White
pKa: 15.76[at 20 ℃]
Storage Condition: Refrigerator
Refractive Index: 1.46



FIRST AID MEASURES of CETEARYL ALCOHOL:
-Description of first-aid measures:
*If inhaled:
If breathed in, move person into fresh air.
*In case of skin contact:
Wash off with soap and plenty of water.
*In case of eye contact:
Flush eyes with water as a precaution.
*If swallowed:
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARYL ALCOHOL:
-Environmental precautions:
No special environmental precautions required.
-Methods and materials for containment and cleaning up:
Sweep up and shovel.
Keep in suitable, closed containers for disposal



FIRE FIGHTING MEASURES of CETEARYL ALCOHOL:
-Extinguishing media:
*Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
-Further information:
No data available



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARYL ALCOHOL:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
*Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
Choose body protection in relation to its type
*Respiratory protection:
Respiratory protection is not required.
-Control of environmental exposure:
No special environmental precautions required.



HANDLING and STORAGE of CETEARYL ALCOHOL:
-Precautions for safe handling:
*Hygiene measures:
General industrial hygiene practice.
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Store in cool place.
Keep container tightly closed in a dry and well-ventilated place.



STABILITY and REACTIVITY of CETEARYL ALCOHOL:
-Reactivity:
No data available
-Chemical stability:
Stable under recommended storage conditions.
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
No data available



SYNONYMS:
(C16-C18) alkyl alcohol
alcohols, C1618
C16-18 alcohols
cetostearyl alcohol
cetyl/stearyl alcohol
1-octadecanol, mixed with 1-hexadecanol
Cetostearyl alcohol
Cetyl Alcohol
Stearyl Alcohol
Cetylstearyl alcohol
cetyl stearyl alcohol
Crodacol CS90
Lanette O
1-Hexadecanol, compd. with 1-octadecanol (1:1)
C18H38O • C16H34O
Alcohols, C16-18
Cetostearyl Alcohol
Cetyl/Stearyl Alcohol
1-Octadecanol, mixt. with 1-Hexadecanol
Cetearyl alcohol
Cetylstearyl alcohol
Cetyl/stearyl alcohol
Cetearyl alcohol
Cetearyl Alcohol
67762-27-0
Cetyl/stearyl alcohol
hexadecan-1-ol;octadecan-1-ol
8005-44-5
Cetearyl Alcohol [NF]
UNII-2DMT128M1S
Lanette O
EINECS 267-008-6
Ceto/Stearyl Alcohol
EC 267-008-6
2DMT128M1S
SCHEMBL1091511
Cetyl-Stearyl Alcohol (50/50)
Cetyl Alcohol
Stearyl Alcohol
Cetearyl Alcohol
Cetearyl Alcohol
Cetylstearyl alcohol, Cetyl/stearyl alcohol
Cetyl Stearyl Alcohol
Cetearyl alcohol
Cetearyl Alcohol
Hexadecan-1-ol + Octadecan-1-ol
Hexadecanol + octadecanol
Hexadecyl alcohol + octadecyl alcohol
Adol 63
Adol 65
Adol 66
Alfol 1618
Alfol 1618C
Alfol 30F
BTMS 350
Barolub LOH
C16-18 alcohols
C16-18 alcs.
C16-18 fatty alcohols
CO 1618
CS 50
Cestopal 80M
Cetalol SCA; Cetanol K
Cetearyl alcohol
Cetostearyl alcohol
Cetearyl Alcohol
Cire algonol CS
Cire deLanol ST
Conol 30OC
Crodacol 1618
Crodacol CS 50
Crodacol CS 90
Crodacol SCB
Crodamol CS 90
Cyclochem emulsion wax
Dehydag wax N
Ecorol 68/50P
Epal 1618
Hydrenol D
Hydrenol DV
Hydrenol MY
Hyfatol CS
Hyfatol CS 50
Hyfatol CS/EP
Kalcohl 68
Kalcohl 6850
Kalcohl 6870
Kalcohl 86
Kalcohl 8665
Kalcohl 8688
Kalcol 1618
Kalcol 6850
Kolliphor CS-A
Kolliphor CS-B
Kolliwax CSA 50
Kolliwax CSA 70
Lanette 20
Lanette D
Lanette O
Laurex CS
Mixture of cetyl and stearyl alcohols
NAA 45
Cetostearyl alcohol
Cetyl Alcohol
Stearyl Alcohol
Cetearyl Alcohol
cetyl stearyl alcohol
Crodacol CS90
Lanette O
1-Hexadecanol, compd. with 1-octadecanol (1:1)
C1618
LANETTE AOK
CETOSTEAROL
heptadecan-1-ol
CETEARYL ALCOHOL
Alkohole, C16-18
Cetearyl alcohol
Cetostearyl Alcohol
C16-18-Alkylalcohol
CETOSTEARYL ALCOHOL
Ceto-stearyl alcohol
CETEARYL ALCOHOL
CETYL-STEARYL ALCOHOL
tetratriacontan-17-ol
CETYL ALCOHOL - STEARYL ALCOHOL

CETEARYL ALCOHOL ( Alcool cétylique parfumerie 30/70)
INCI – CETEARYL ALCOHOL - N° CAS 67762-27-0 - N° EINECS/ELINCS 267-008-6, Alcool gras, coupe en C16 / C18 dans des proportions 50/50. (C16-C18) Alkyl alcohol, Alcohols, C16-18, Alcohols, C16-C18, C16-C18 alcohols, Cetearyl Alcohol, FATTY ALCOHOLS, heptadecan-1-ol, heptadecan-1-ol Alcohols, C16-18, hexadecan-1-ol; octadecan-1-ol, hexadecan-1-ol;octadecan-1-ol OXIRANE, METHYL-, POLYMER WITH OXIRANE, MONOOCTA-DECYL ETHER / PPG-2 CETEARETH-9; Noms français : Alcools C16-C18 Noms anglais : (C16-C18) ALKYL ALCOHOL (C16-C18)-ALKYL ALCOHOL ALCOHOLS, C16-18
CETEARYL ALCOHOL (Alcool cétostéarylique 50/50)
CETEARYL ALCOHOL (AND) BEHENTRIMONIUM METHOSULFATE
CETEARYL ALCOHOL (AND) BEHENTRIMONIUM METHOSULFATE
CETEARYL BEHENATE, N° CAS : 246159-35-3, Nom INCI : CETEARYL BEHENATE, Emollient : Adoucit et assouplit la peau, Agent d'entretien de la peau : Maintient la peau en bon état, Agent de protection de la peau : Aide à éviter les effets néfastes des facteurs externes sur la peau
CETEARYL ALCOHOL COSMETIC GRADE
Cetearyl Alcohol cosmetic grade is a white to light yellowish hydrophilic wax supplied in pellets.
Cetearyl Alcohol cosmetic grade is an all-purpose thickening agent.


CAS Number: 67762-27-0 / 8005-44-5
EC Number: 267-008-6
Chem/IUPAC Name:: Alcohols, C16-18



SYNONYMS:
Cetyl Alcohol, Hexadecan-1-ol, Cetanol, Ethal, Ethol, Hexadecanol, Hexadecyl alcohol, Palmityl alcohol, (C16-C18) alkyl alcohol, alcohols, C1618, C16-18 alcohols, cetostearyl alcohol, cetyl/stearyl alcohol, 1-octadecanol mixed with 1-hexadecanol, Cetostearyl alcohol, Cetyl Alcohol, Stearyl Alcohol, Cetylstearyl alcohol, cetyl stearyl alcohol, Crodacol CS90, Lanette O, 1-Hexadecanol compd. with 1-octadecanol (1:1), C18H38O • C16H34O, Alcohols, C16-18, Cetostearyl Alcohol, Cetyl/Stearyl Alcohol, 1-Octadecanol mixt. with 1-Hexadecanol, Cetearyl alcohol, Cetylstearyl alcohol, Cetyl/stearyl alcohol, Cetearyl alcohol, Cetearyl Alcohol, 67762-27-0, Cetyl/stearyl alcohol, hexadecan-1-ol; octadecan-1-ol, 8005-44-5, Cetearyl Alcohol [NF], UNII-2DMT128M1S, Lanette O, EINECS 267-008-6, Ceto/Stearyl Alcohol, EC 267-008-6, 2DMT128M1S, SCHEMBL1091511, Cetyl-Stearyl Alcohol (50/50), Cetyl Alcohol, Stearyl Alcohol, Cetearyl Alcohol, Cetearyl Alcohol, Cetylstearyl alcohol, Cetyl/stearyl alcohol, Cetyl Stearyl Alcohol, Cetearyl alcohol, Cetearyl Alcohol, Hexadecan-1-ol + Octadecan-1-ol, Hexadecanol + octadecanol, Hexadecyl alcohol + octadecyl alcohol, Adol 63, Adol 65, Adol 66, Alfol 1618, Alfol 1618C, Alfol 30F, BTMS 350, Barolub LOH, C16-18 alcohols, C16-18 alcs., C16-18 fatty alcohols, CO 1618, CS 50, Cestopal 80M, Cetalol SCA, Cetanol K, Cetearyl alcohol, Cetostearyl alcohol, Cetearyl Alcohol, Cire algonol CS, Cire deLanol ST, Conol 30OC, Crodacol 1618, Crodacol CS 50, Crodacol CS 90, Crodacol SCB, Crodamol CS 90, Cyclochem emulsion wax, Dehydag wax N, Ecorol 68/50P, Epal 1618, Hydrenol D, Hydrenol DV, Hydrenol MY, Hyfatol CS, Hyfatol CS 50, Hyfatol CS/EP, Kalcohl 68, Kalcohl 6850, Kalcohl 6870, Kalcohl 86, Kalcohl 8665, Kalcohl 8688, Kalcol 1618, Kalcol 6850, Kolliphor CS-A, Kolliphor CS-B, Kolliwax CSA 50, Kolliwax CSA 70, Lanette 20, Lanette D, Lanette O, Laurex CS, Mixture of cetyl and stearyl alcohols, NAA 45, Cetostearyl alcohol, Cetyl Alcohol, Stearyl Alcohol, Cetearyl Alcohol, cetyl stearyl alcohol, Crodacol CS90, Lanette O, 1-Hexadecanol compd. with 1-octadecanol (1:1), C1618, LANETTE AOK, CETOSTEAROL, heptadecan-1-ol, CETEARYL ALCOHOL, Alkohole, C16-18, Cetearyl alcohol, Cetostearyl Alcohol, C16-18-Alkylalcohol, CETOSTEARYL ALCOHOL, Ceto-stearyl alcohol, CETEARYL ALCOHOL, CETYL-STEARYL ALCOHOL, tetratriacontan-17-ol, CETYL ALCOHOL - STEARYL ALCOHOL



Cetearyl Alcohol cosmetic grade, the chemical formula is C34H72O2, white solid crystal, granular or waxy block, with fragrance.
The melting point of Cetearyl Alcohol cosmetic grade is 48-50°C, and the boiling point is 344°C.
Insoluble in water, soluble in ethanol, ether and mineral oil.


Sulfonation reaction with concentrated sulfuric acid, but no chemical effect when encountering strong alkali.
Cetearyl Alcohol cosmetic grade has the functions of inhibiting greasy feeling, reducing the viscosity of wax materials, and stabilizing cosmetic emulsions.
Cetearyl Alcohol cosmetic grade is a mixture of cetyl and stearyl alcohols that can come from vegetable or synthetic sources.


Cetearyl Alcohol cosmetic grade’s a so-called fatty alcohol, a mix of cetyl and stearyl alcohol, other two emollient fatty alcohols.
Though chemically speaking, Cetearyl Alcohol cosmetic grade is alcohol (as in, it has an -OH group in its molecule), its properties are totally different from the properties of low molecular weight or drying alcohols.


Fatty alcohols have a long oil-soluble (and thus emollient) tail part that makes them absolutely non-drying and non-irritating and are totally ok for the skin.
Cetearyl Alcohol cosmetic grade is a pre-made 50:50 blend of cetyl alcohol and stearyl alcohol, which are fatty alcohols that give creams and lotions their thickness and texture.


The more Cetearyl Alcohol cosmetic grade used, the thicker or creamier the product.
Cetearyl Alcohol cosmetic grade also helps stabilize emulsions.
Cetearyl Alcohol cosmetic grade is actually a blend of cetyl and stearyl alcohol which are both naturally derived from mixed vegetable sources.


Use Levels of Cetearyl Alcohol cosmetic grade is 0.2-1.5% typically.
Cetearyl Alcohol cosmetic grade is made from a combination of cetyl and stearyl alcohol.
These alcohols are mostly derived from plant-based sources such as coconut, palm, and vegetable oil.


Further, it can also be made in the laboratory.
Cetearyl Alcohol cosmetic grade is a safe and non-toxic ingredient that poses little to no risk when applied.
Cetearyl Alcohol cosmetic grade is a cosmetic wax and is used as a co-emulsifier and thickener in conditioners and some creams.


Cetearyl Alcohol cosmetic grade is a type of fatty alcohol that companies use to make various cosmetic products.
Cetearyl Alcohol cosmetic grade is an emollient, which means it softens the skin and hair
Cetearyl Alcohol cosmetic grade is different from the alcohol in drinks, which is known as ethanol.


While ethanol is drying to the skin, fatty alcohols are not.
Experts widely accept cetearyl alcohol as a safe ingredient in cosmetics, and Cetearyl Alcohol cosmetic grade is practically nontoxic, although some people can be sensitive or allergic to it.


Cetearyl Alcohol cosmetic grade also examines other alcohols in cosmetics.
Cetearyl Alcohol cosmetic grade is a mixture of cetyl alcohol and stearyl alcohol.
Both alcohols are present in small amounts in plants and animals.


Cetearyl, cetyl, and stearyl alcohol are all fatty alcohols, which means they derive from natural oils and fats.
Cetearyl Alcohol cosmetic grade is a waxy, white solid that manufacturers typically sell in the form of flakes.
While it is soluble (dissolves) in oils and alcohols, Cetearyl Alcohol cosmetic grade is insoluble in water.


Cetearyl Alcohol cosmetic grade consists predominantly of cetyl and stearyl alcohols and is classified as a fatty alcohol.
Cetearyl Alcohol cosmetic grade is not an emulsifier itself, but needs to be combined with Emulsifying Wax (i.e. steareth-21).
Cetearyl Alcohol cosmetic grade is NOT derived from any animal fats or oils.


Cetearyl Alcohol cosmetic grade is coconut/palm-oil derived.
Cetearyl Alcohol cosmetic grade is a long chain, fatty alcohol that adds an emulsifying agent to many hair care products and can help your hair feel smoother with less frizz.


Long chain alcohols are oilier than short chain alcohols thanks to their abundance of carbon atoms in each molecule (between 12 and 20″>.
Made from a combination of Cetyl alcohol and Stearyl alcohol, Cetearyl Alcohol cosmetic grade can be naturally sourced from plants or synthetically created.
Cetearyl Alcohol cosmetic grade is a highly effective emollient, making it a popular choice in skincare products such as creams, lotions, and moisturizers.


Cetearyl Alcohol cosmetic grade is valuable in creating stable emulsions, which are essential for products like creams and lotions that contain both water and oil phases.
This ensures a uniform and well-blended product.


Cetearyl Alcohol cosmetic grade helps improve the texture of hair, making it more manageable, reducing frizz, and imparting a silky feel.
A minor side effect could be rashes on highly sensitive skin; therefore, a patch test is required.
Cetearyl Alcohol cosmetic grade is also biodegradable and does not pose any known environmental hazard.


Additionally, plant-based derivatives make Cetearyl Alcohol cosmetic grade halal and vegan.
Cetearyl Alcohol cosmetic grade is solvent in alcohol, non-solvent in water, very well tolerated and readily biodegradable.
Cetearyl Alcohol cosmetic grade is different from the alcohol in drinks, which is known as ethanol.


While ethanol is drying to the skin, fatty alcohols are not.
Experts widely accept Cetearyl Alcohol cosmetic grade as a safe ingredient in cosmetics, and it is practically nontoxic.


Cetearyl Alcohol cosmetic grade is often used as a generic term, but not all alcohols are created equal.
Cetearyl Alcohol cosmetic grade can fall into two categories:
1) high molecular alcohols
2) low molecular alcohols.


Low molecular alcohols are also known as drying alcohols.
High molecular alcohols are also called fatty alcohols.
Cetearyl Alcohol cosmetic grade falls into this last category.


Cetearyl Alcohol cosmetic grade is an ingredient that is derived naturally from plants like palm oil or coconut oil.
Although the names sound similar, Cetyl Alcohol and Ceteareth-20 are not the same as Cetearyl Alcohol cosmetic grade.
Cetearyl Alcohol cosmetic grade enhances the stability and shelf life of cosmetic products.


Cetearyl Alcohol cosmetic grade helps prevent the separation of ingredients and maintains the overall integrity of the formulation.
Cetearyl Alcohol cosmetic grade contributes to the viscosity and thickness of formulations, providing a desirable consistency to products like creams and body butter.


Cetearyl Alcohol cosmetic grade is a flaky, waxy, white solid that is a combination of cetyl and stearyl alcohols, which occur naturally in plants and animals.
Cetearyl Alcohol cosmetic grade is often derived from coconut, palm, corn, or soy vegetable oil, typically from coconut palm trees, palm trees, corn plants, or soy plants.


Cetearyl Alcohol cosmetic grade is also known as cetostearyl alcohol and with a molecular formula of C34H72O2.
Cetearyl Alcohol cosmetic grade is a mixture of cetyl alcohol and stearyl alcohol, while cetyl alcohol is a single ingredient.
Cetearyl Alcohol cosmetic grade is a white, waxy solid that is derived from vegetable oils.


Cetearyl Alcohol cosmetic grade is non-irritating and non-comedogenic, making it a good choice for people with sensitive skin.
They do have stuff in common though. Cetearyl Alcohol cosmetic grade is made from Cetyl Alcohol and Stearyl Alcohol, and if you mix Cetearyl Alcohol cosmetic grade with Ethylene Oxide you get Ceteareth-20.


Both Cetyl Alcohol and Ceteareth-20 serves kind of the same purpose as Cetearyl Alcohol cosmetic grade – they act as an emulsifier and help to stabilize and thinker up skincare products and hair products.
Cetearyl Alcohol cosmetic grade belongs to the family of fatty alcohols.


Cetearyl Alcohol cosmetic grade thickens creams and stabilizes them.
Cetearyl Alcohol cosmetic grade softens and protects the skin without a greasy effect.
Cetearyl Alcohol cosmetic grade mainly contains cetyl alcohol (Cetyl alcohol) and stearyl alcohol (Stearyl alcohol).


Cetearyl Alcohol cosmetic grade is authorized in organic.
Cetearyl Alcohol cosmetic grade is vegetable-derived fatty alcohol used as an emollient and thickening agent in skin creams and lotions.
In topical formulations, Cetearyl Alcohol cosmetic grade will increase viscosity and acts as an emulsifier in water-in-oil and oil-in-water emulsions.


Cetearyl Alcohol cosmetic grade stabilizes an emulsion and also acts as a co-emulsifier, thereby reducing the total amount of surfactant required to form a stable emulsion.
Cetearyl Alcohol cosmetic grade is an emulsifier that thickens cosmetic products and makes them stable by holding water and oil together.


Cetearyl Alcohol cosmetic grade can also be used as a surfactant that foams and washes the hair and skin, and is known for its emollient properties.
Cetearyl Alcohol cosmetic grade is a white, crystalline solid that is derived from coconut oil and palm oil.
Cetearyl Alcohol cosmetic grade is also non-irritating and non-comedogenic.


Cetearyl Alcohol cosmetic grade is a chemical that’s found in personal care products like skin lotions, creams, and hair products.
Cetearyl Alcohol cosmetic grade is a solid, waxy material derived from the fats of vegetable oils.
Although it is called ‘alcohol’, Cetearyl Alcohol cosmetic grade is not a fermented mixture and has nothing to do with ethanol.


Cetearyl Alcohol cosmetic grade is very gentle on the skin and does not dry it out.
Cetearyl Alcohol cosmetic grade is an emollient that makes the skin and hair smooth and supple.
This co-emulsifier in the form of small white pastilles, Cetearyl Alcohol cosmetic grade, is composed of half cetyl alcohol and half stearyl alcohol.


Cetearyl Alcohol cosmetic grade is purely plant-based and therefore biodegradable.
Cetearyl Alcohol cosmetic grade is a white to light yellowish hydrophilic wax that is supplied in pellets.
Cetearyl Alcohol cosmetic grade has a hydroxyl value of 215-225, a tube rise melting point of 49 - 56°C, and an iodine number of max. 0.5.


Cetearyl Alcohol cosmetic grade is a waxy substance that's derived.
Cetearyl Alcohol cosmetic grade, also know as Cetostearyl Alcohol, is a vegetable-derived fatty alcohol mixture of approximately 30% cetyl alcohol and 70% stearyl alcohol.


Cetearyl Alcohol cosmetic grade gives an emollient feel to the skin and a conditioning effect to hair.
Cetearyl Alcohol cosmetic grade is a white waxy solid ingredient with a mild soapy odour, and is in a group known as a ‘fatty alcohols’.
Unlike more conventional alcohols like ethanol, fatty alcohols have notably different properties - typically they are non-irritating and non-drying to skin.


Unlike other types of alcohol, Cetearyl Alcohol cosmetic grade’s not drying or irritating and is considered safe and nontoxic for use on skin and hair.
If you’ve ever used lotions, shampoos, or conditioners, you may have noticed they include a chemical called Cetearyl Alcohol cosmetic grade.
The good news is that Cetearyl Alcohol cosmetic grade isn’t “bad” for you, your skin, or your hair.


Most importantly, Cetearyl Alcohol cosmetic grade is very different from “regular” alcohols, like ethanol.
Cetearyl Alcohol cosmetic grade is a chemical found in cosmetic products.
Cetearyl Alcohol cosmetic grade’s a white, waxy mixture of cetyl alcohol and stearyl alcohol, both fatty alcohols.


Cetearyl Alcohol cosmetic grade is found in animals and plants, like coconut and palm oil.
Cetearyl Alcohol cosmetic grade can also be made in a laboratory.
Cetearyl Alcohol cosmetic grade is a waxy, white substance consisting of cetyl and stearyl alcohols.


Cetearyl Alcohol cosmetic grade’s used in personal care products as an emulsifier, emollient, and surfactant.
Cetearyl Alcohol cosmetic grade is a mixture of stearyl alcohol and cetyl alcohol that can come from vegetable or synthetic sources.
Cetearyl Alcohol cosmetic grade is primarily made from cetyl and stearyl alcohols, which can be synthetically produced or derived from plant oils such as coconut and palm, or from animal oils (not used by ecostore).


Cetearyl Alcohol cosmetic grade is part of a group of ‘fatty alcohols’ that are derived from synthesising natural components, in this case stearic acid and palmitic acid (found in oils and butters) and vegetable triglycerides.
Cetearyl Alcohol cosmetic grade is a fatty alcohol that is a mixture of cetyl and stearyl alcohols.


Cetearyl Alcohol cosmetic grade can be derived naturally, as in coconut fatty alcohol, or made synthetically.
Unlike the skin-aggravating/drying forms of alcohol (typically listed as SD alcohol, denatured alcohol, or isopropyl alcohol), Cetearyl Alcohol cosmetic grade is an emollient that is gentle, safe, and good for skin.


Cetearyl Alcohol cosmetic grade is almost always combined with similar-feeling ingredients to create a product’s texture and slip sensation when applied to skin.
As a raw material, Cetearyl Alcohol cosmetic grade is a white, waxy solid (often in flake form).


Cetearyl Alcohol cosmetic grade is not soluble in water but is soluble in alcohol and oils.
In the majority of skin care formulas, Cetearyl Alcohol cosmetic grade is present in under a 5% concentration, although higher amounts are permissible.
Cetearyl Alcohol cosmetic grade (CH3(CH2)nOH) is a mixture of cetyl and stearyl alcohols that can come from vegetable or synthetic sources.


Cetearyl Alcohol cosmetic grade is classified as a fatty alcohol.
Cetearyl Alcohol cosmetic grade is a white, waxy, solid material in the form of flakes.
Cetearyl Alcohol cosmetic grade is waxy white solid with a mild soapy odor.


Cetearyl Alcohol cosmetic grade floats on water.
Cetearyl Alcohol cosmetic grade is a mixture of fatty alcohols, consisting predominantly of cetyl (16 C) and stearyl alcohols (18 C) and is classified as a fatty alcohol.


Cetearyl Alcohol cosmetic grade is the name given by the INCI (International Nomenclature of Cosmetic Ingredients) to a compound non-ionic surfactant that is a mixture of cetyl alcohol and stearyl alcohol.
Both of these alcohols are fatty alcohols.


The CAS number of Cetearyl Alcohol cosmetic grade is 67762-27-0.
Cetearyl Alcohol cosmetic grade also known as Cetearyl Alcohol cosmetic grade or cetylstearyl alcohol is a mixture of fatty alcohols, consisting of cetyl and stearyl alcohols.


The mixture forms a waxy, white substance used in cosmetics and personal care products to smooth and thicken the product while adding hydrating properties.
Cetearyl Alcohol cosmetic grade is a white, waxy solid, usually sold in a flake form.
Cetearyl Alcohol cosmetic grade consists primarily of a combination of cetyl (hexadecanol) and stearyl (octadecanol) alcohols.


Cetearyl Alcohol cosmetic grade is oil soluble, but it is not water-soluble.
Cetearyl Alcohol cosmetic grade has a melting point of 122°F (50°C) and a boiling point: 480.2°F (249°C).
Cetearyl Alcohol cosmetic grade is a fatty alcohol that is made up of stearyl alcohols and cetyl alcohol.


Cetearyl Alcohol cosmetic grade is a substance present in several cosmetic products.
Cetearyl Alcohol cosmetic grade's a waxy white liquid that solidifies at room temperature.
Cetearyl Alcohol cosmetic grade is also called "long-chain alcohol" because of its chemical formula.


Fatty alcohols have an even number of carbon atoms and a single alcohol group (-OH) connected to the last carbon.
Cetearyl Alcohol cosmetic grade is also called palmityl alcohol and 1-hexadecanol.
Cetearyl Alcohol cosmetic grade is a common component in a range of cosmetics and personal care products.


In cosmetic products, Cetearyl Alcohol cosmetic grade acts as a stabilizer and emulsifier and prevents products from separating.
On ingredient labels, Cetearyl Alcohol cosmetic grade is sometimes listed as C16-18 alcohol, Cetearyl Alcohol cosmetic grade, or cetyl/stearyl alcohol.
Cetearyl Alcohol cosmetic grade is a non-ionic surfactant that performs a variety of functions in the personal care business.


Cetearyl Alcohol cosmetic grade is also known as cetostearyl alcohol and cetyl/stearyl alcohol.
Cetearyl Alcohol cosmetic grade is insoluble in water and soluble in alcohol and oils.
The ratio of stearyl and cetyl alcohol varies in Cetearyl Alcohol cosmetic grade.


Technical grade Cetearyl Alcohol cosmetic grade contains approximately 65-80% stearyl and 20-35% cetyl alcohol.
Though Cetearyl Alcohol cosmetic grade consists mainly of cetyl and stearyl alcohols, small quantities of alcohols with longer and shorter chain lengths are usually present in this mixture.


Cetearyl Alcohol cosmetic grade is a 100% natural product of waxy consistency.
Cetearyl Alcohol cosmetic grade is a plant derived fatty alcohol made from a mixture of Cetyl alcohol and Stearyl Alcohol.
Cetearyl Alcohol cosmetic grade is all-purpose thickening agent.


Cetearyl Alcohol cosmetic grade is a white, waxy solid in flake form.
Cetearyl Alcohol cosmetic grade is a vegetable derived blend of cetyl and stearyl fatty alcohol.
Cetearyl Alcohol cosmetic grade is composed of fatty alcohols, 70:30 ratio.


C18 weight percentage Cetearyl Alcohol cosmetic grade 60-75% and C16 weight percentage cetyl alcohol 25-35%.
Cetearyl Alcohol cosmetic grade is HLB 15.5 (creates oil-in-water emulsions but only to a limited degree).
Cetearyl Alcohol cosmetic grade is a mixture of fatty alcohols, consisting predominantly of cetyl and stearyl alcohols and is classified as a fatty alcohol.


Cetearyl Alcohol cosmetic grade is a white, waxy solid made up of a combination of cetyl alcohol and stearyl alcohol.
Cetearyl Alcohol cosmetic grade (CH3 (CH2)nOH) is a mixture of cetyl and stearyl alcohols from vegetable or synthetic sources.
Cetearyl Alcohol cosmetic grade is classified as a fatty alcohol.


Cetearyl Alcohol cosmetic grade is a white, waxy, solid substance in the form of flakes.
Cetearyl Alcohol cosmetic grade is oil soluble but not water soluble.
Cetearyl Alcohol cosmetic grade's melting point is 122°F (50°C) and boiling point: 480.2°F (249°C)


Cetearyl Alcohol cosmetic grade acts as a consistency building agent thus increasing the viscosity of the system.
Cetearyl Alcohol cosmetic grade is usually present in the oil phase in high concentration.
Cetearyl Alcohol cosmetic grade is a fatty alcohol derived entirely from vegetable (coconut and/or palm kernel, supplemented with palm oil stearine) feedstocks.


Cetearyl Alcohol cosmetic grade is made from palmitic acid.
Cetearyl Alcohol cosmetic grade is also called cetyl stearyl alcohol.
Cetearyl Alcohol cosmetic grade acts as an emulsifier.


Cetearyl Alcohol cosmetic grade is ideal for products where you need an emulsifier and thickener in one.
Cetearyl Alcohol cosmetic grade is an emulsifier is a substance that allows a homogeneous mixture to be formed from otherwise immiscible liquids, such as water and oil.


The addition of an emulsifier to the water/oil mixture results in an emulsion.
These are, for example, creams, body lotions, shaving emulsions, make-up removing oils and anything containing oil and water.
Cetearyl Alcohol cosmetic grade adds strength to creams and improves their consistency.


Cetearyl Alcohol cosmetic grade is very similar to cetyl alcohol except that it is milder.
Heat the Cetearyl Alcohol cosmetic grade to a temperature of 60-70°C together with the oil phase and make sure it has completely dissolved.
Recommended dosage of Cetearyl Alcohol cosmetic grade is 0-5%


Cetearyl Alcohol cosmetic grade is vegetable derived (palm).
Cetearyl Alcohol cosmetic grade is an emulsifier is a substance that enables the creation of a seamless mixture from immiscible liquids such as water and oil.


Cetearyl Alcohol cosmetic grade is an easy spreading, Colorless liquid fatty alcohol.
Cetearyl Alcohol cosmetic grade is the hidden gem your products need!
Addition of an emulsifier into the mixture of water and oil creates an emulsion.


This can be seen in creams, body milks, shaving emulsions, cleansing oils and everything that contains oil and water.
Cetearyl Alcohol cosmetic grade is 100% of natural origin with waxy consistency.
Cetearyl Alcohol cosmetic grade is derived from palmitic acid and is called Cetearyl Alcohol cosmetic grade.


Cetearyl Alcohol cosmetic grade acts as an emulsifier and is ideal for products which need both emulsifier and thickening agent in one.
Cetearyl Alcohol cosmetic grade imparts the firmness to creams and enhances their consistency.
Cetearyl Alcohol cosmetic grade is very similar to cetyl alcohol, but it is softer.


Besides being used in creams, body milks and so on, be sure to use Cetearyl Alcohol cosmetic grade in shampoos and conditioners as well.
Heat Cetearyl Alcohol cosmetic grade to 60 – 70 °C together with the oil phase and make sure it is completely dissolved.
Cetearyl Alcohol cosmetic grade is a cosmetic grade of natural cetyl alcohol containing a minimum 95% C16 alcohols.


Cetearyl Alcohol cosmetic grade is a white to light yellowish hydrophilic wax supplied in pellets.
Cetearyl Alcohol cosmetic grade is an all-purpose thickening agent.
NF grade of Cetearyl Alcohol cosmetic grade is 95% active components.


Recommended usage of Cetearyl Alcohol cosmetic grade: 1.5% to 5.5% of your lotion or cream recipe.
Cetearyl Alcohol cosmetic grade is a plant based product usually extracted from coconut oil.


Cetearyl Alcohol cosmetic grade helps to form protective barrier on the skin so water cannot evaporate, thus locking in the moisture.
Cetearyl Alcohol cosmetic grade is a fatty alcohol derived entirely from vegetable (coconut and/or palm kernel, supplemented with palm oil stearine) feedstocks.


Cetearyl Alcohol cosmetic grade is a white, waxy solid, in flake or bead form, which is used in ointments, creams, conditioners and lotions as a mild vegetable emulsifier, skin softener, conditioner and thickener.
Cetearyl Alcohol cosmetic grade is a fatty acid chain derived from either coconut or palm oil to which an alcohol has been added.


Cetearyl Alcohol cosmetic grade is a very effective thickener that helps form extremely stable emulsions in water-in-oil (full moisturizer) and oil-in-water (oil-free lotion) preparations.
When one hears ‘alcohol’ usually what comes to mind are rubbing alcohol or grain alcohol....both are very drying on the skin.


Then there are what are known as fatty alcohols which are usually produced from saturated fats in nuts and plants and their effects on the skin are quite different from ethyl alcohol; one of them is Cetearyl Alcohol cosmetic grade.
According to the FDA, cosmetic products labeled ‘alcohol free’ may contain cetyl, stearyl, cetearyl, or lanolin alcohols.
Cetearyl Alcohol cosmetic grade is a mixture of cetyl and stearyl alcohols that can be derived naturally or synthetically.


Cetearyl Alcohol cosmetic grade is a white, waxy solid.
Cetearyl Alcohol cosmetic grade is a fatty alcohol used for a wide range of applications.
Cetearyl Alcohol cosmetic grade is also referred to as Fatty Alcohols C16-C18, Cetearyl Alcohol cosmetic grade, or Cetostearyl Alcohol.


Cetearyl Alcohol cosmetic grade mades from palm oil.
Cetearyl Alcohol cosmetic grade is a fatty alcohol which is understood to cause contact dermatitis.
Cetearyl Alcohol cosmetic grade is white, solid, waxy droplets or flakes, with a characteristic bland odour.


Cetearyl Alcohol cosmetic grade's melting point is 50 to 56 degrees celsius.
Cetearyl Alcohol cosmetic grade is a fatty alcohol that is a mixture of cetyl and stearyl alcohols.
Cetearyl Alcohol cosmetic grade is composed of fatty alcohols, 70:30 ratio.


C18 weight percentage stearyl alcohol 60-75% and C16 weight percentage cetyl alcohol 25-35%.
HLB of Cetearyl Alcohol cosmetic grade is 15.5 (creates oil-in-water emulsions but only to a limited degree).
Cetearyl Alcohol cosmetic grade works also in water-free products like lipsticks.


Cetearyl Alcohol cosmetic grade acts as co-emulsifier at concentrations under 2%.
Cetearyl Alcohol cosmetic grade has emollient, moisturizing, and foam boosting properties.
Cetearyl Alcohol cosmetic grade is a mixture of stearyl alcohol and cetyl alcohol forming a waxy, white mixture to be used in cosmetics.


While most alcohols are drying for the skin, Cetearyl Alcohol cosmetic grade traps water and treats skin dryness.
Cetearyl Alcohol cosmetic grade, Cetyl Alcohol, Myristyl Alcohol and Behenyl Alcohol are white, waxy solids.
Isostearyl Alcohol is a clear liquid.


Cetyl Alcohol and Stearyl Alcohol are the two major components of Cetearyl Alcohol cosmetic grade.
These ingredients are all fatty alcohols and that are widely used in cosmetics and personal care products, especially in skin lotions and creams.
Cetearyl Alcohol cosmetic grade can be derived naturally, as in coconut fatty alcohol, or made synthetically.


According to the U.S. FDA, cosmetic products labeled “alcohol free” are allowed to contain Cetearyl Alcohol cosmetic grade, because the effects are so different from skin-damaging forms of alcohol.
As a raw material, Cetearyl Alcohol cosmetic grade is a white, waxy solid (often in flake form).
Cetearyl Alcohol cosmetic grade is not soluble in water but is soluble in alcohol and oils.


In the majority of skin care formulas, Cetearyl Alcohol cosmetic grade is present in under a 5% concentration, although higher amounts are permissible.
Cetearyl Alcohol cosmetic grade, also known as Cetearyl Alcohol cosmetic grade, is a waxy substance made from stearyl alcohol or cetyl alcohol, or both fatty acids.



USES and APPLICATIONS of CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is used raw materials for making chemical intermediates and surfactants .
Cetearyl Alcohol cosmetic grade can be used directly as a foam suppressor .


Provides thickening in cosmetic and pharmaceutical formulations.
Cetearyl Alcohol cosmetic grade is widely used in cosmetics, plastics, leather, textiles, synthetic detergents and other industries.
Cetearyl Alcohol cosmetic grade is suitable for all kinds of cosmetics, as a base, especially suitable for creams and lotions.


Cetearyl Alcohol cosmetic grade has a range of uses in different types of products:
In skin care products, Cetearyl Alcohol cosmetic grade can be used to modify the viscosity (thickness) of lotions or as an emollient (moisturiser), leaving skin soft and smooth.


In personal and hair care products, Cetearyl Alcohol cosmetic grade can be used as an emulsifier or emulsion stabiliser, helping emulsifying ingredients more effectively reduce surface tension between water and oil, improving performance.
Cetearyl Alcohol cosmetic grade is commonly used as an emulsion stabilizer and thickener.


Cetearyl Alcohol cosmetic grade consisting predominantly of cetyl alcohol (C16) and stearyl alcohol (C18), is a fatty alcohol commonly used as an emulsifier and stabilizer in cosmetics, personal care, and pharmaceutical products.
Cetearyl Alcohol cosmetic grade helps to blend water and oil, and increases the viscosity and texture of products.


In an emulsion Cetearyl Alcohol cosmetic grade is generally used at around 0.5% to help improve the structure and stability of the oil phase while giving a good skin feel.
Cetearyl Alcohol cosmetic grade can also be used up to 15% in a hair conditioner formula to give slip and increase viscosity.


Cetearyl Alcohol cosmetic grade is a derivative based on renewable plant raw materials and is mainly used in cosmetic applications.
Cetearyl Alcohol cosmetic grade is compatible with a variety of ingredients, and is used in a wide range of products including face creams, hand creams, shampoos, conditioners, and body washes.


Cetearyl Alcohol cosmetic grade is typically used as an emulsifier and stabilizer, helping to blend water and oil and increase the viscosity and texture of products.
Cetearyl Alcohol cosmetic grade can be used in a variety of cosmetics and personal care products, such as face creams, hand creams, shampoos, conditioners, and body washes.


Cetearyl Alcohol cosmetic grade is used in personal care products, mainly skin lotions, hair products, and creams.
Cetearyl Alcohol cosmetic grade helps create smoother creams, thicker lotions, and more stable foam products.
In medicine, Cetearyl Alcohol cosmetic grade can be directly used in W/O emulsifier paste, ointment base, etc.


Cetearyl Alcohol cosmetic grade is also used as a raw material for textile auxiliaries in industry
Cetearyl Alcohol cosmetic grade is used as raw material for anionic, cationic, nonionic surfactants
Cetearyl Alcohol cosmetic grade is used raw materials for making chemical intermediates and surfactants


Cetearyl Alcohol cosmetic grade is used in hundreds of personal care, cosmetic, and household products, such as makeup, bath soap, detergents, shaving cream, moisturizer, shampoo, and other products.
Cetearyl Alcohol cosmetic grade is used in personal care products as a thickener, stabilizer, emulsifier, and emollient.
Cetearyl Alcohol cosmetic grade is used in personal care products as a thickener, emulsifier, and moisturizer.


Cetearyl Alcohol cosmetic grade is used creams and lotions will typically contain 1 – 8% while anhydrous formulas will contain higher concentrations as a structural component and feel-modifier.
In emulsions, Cetearyl Alcohol cosmetic grade will add body and richness at lower use levels (1 – 5%) while imparting a velvety feel.


Cetearyl Alcohol cosmetic grade is used to help soften the skin and hair and to thicken and stabilize cosmetic products, like lotions and hair products.
Cetearyl Alcohol cosmetic grade is used as an emollient, Cetearyl Alcohol cosmetic grade is considered an effective ingredient for soothing and healing dry skin.


Fatty alcohols such as cetearyl or cetyl alcohol are emollients that do not dry out the skin or have astringent properties like ethanol or isopropyl alcohol.
Cetearyl Alcohol cosmetic grade mainly functions as a co-emulsifier, thickener and/or emollient in cosmetic formulations.


Cetearyl Alcohol cosmetic grade is an emollient, which means it softens the skin and hair.
Manufacturers also use Cetearyl Alcohol cosmetic grade to stabilize emulsions, which are mixes of oil and water.
Cetearyl Alcohol cosmetic grade is a type of fatty alcohol that companies use to make various cosmetic products.


These include a wide array of toiletries, including hand creams, shampoos, and body washes.
Cetearyl Alcohol cosmetic grade is used in many cosmetic products since it increases the stability of emulsions.
Cetearyl Alcohol cosmetic grade constitutes a solid white mass which also serves as a consistency enhancing component.


On the skin Cetearyl Alcohol cosmetic grade has a smoothing and non-oily effect.
Cetearyl Alcohol cosmetic grade is a mixture of stearyl alcohol and cetyl alcohol forming a waxy, white mixture to be used in cosmetics.
Cetearyl Alcohol cosmetic grade is used to bring smoothness and thickness to the products while also providing hydrating properties.


While most alcohols are drying for the skin, Cetearyl Alcohol cosmetic grade traps water and treats skin dryness.
However, higher concentrations may begin to give a waxy feel to the product as Cetearyl Alcohol cosmetic grade is rubbed in.
Cetearyl Alcohol cosmetic grade is used lotions, creams, conditioners, make-up products.


Cetearyl Alcohol cosmetic grade is suitable for all kinds of cosmetics, as a base, especially suitable for creams and lotions; in medicine, it can be directly used in W/O emulsifier paste (as auxiliary emulsifier), ointment base, etc.
Cetearyl Alcohol cosmetic grade is used as an emulsion stabiliser, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.


Cetearyl Alcohol cosmetic grade imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Cetearyl Alcohol cosmetic grade is commonly used in hair conditioners and other cosmetic products for it's emollient properties.


Cetearyl Alcohol cosmetic grade is used as an emollient.
Cetearyl Alcohol cosmetic grade is perfect for use in Baby Care products like Shampoo and skincare products due to its non-sensitizing properties.
Cetearyl Alcohol cosmetic grade acts as an emulsifier and stabilizer.


This means that is it used for blending ingredients that do not normally mix (such as water and oil).
Cetearyl Alcohol cosmetic grade can also be used to thicken up the consistency of a product.
As an emollient, Cetearyl Alcohol cosmetic grade is considered an effective ingredient for soothing and healing dry skin.


Beyond Cetearyl Alcohol cosmetic grade’s emollient ability to provide a softening and smoothing effect, it is also used as a carrying agent for other ingredients.
Additionally, Cetearyl Alcohol cosmetic grade can be used to alter the thickness of a formula or to influence the foaming capacity of a cleanser.


Cetearyl Alcohol cosmetic grade (white pellets) is a cosmetic wax and is used as a co-emulsifier and thickener in conditioners and some creams.
Cetearyl Alcohol cosmetic grade is a fatty alcohol and is the main ingredient in many skincare, haircare, and personal care products.
Cetearyl Alcohol cosmetic grade improves the consistency of the formula and assists in creating more stable foam-based products.


Cetearyl Alcohol cosmetic grade is most commonly used in all kinds of cosmetic products.
Cetearyl Alcohol cosmetic grade is found in a number of detergents – it is responsible for foam stabilisation in products intended for cleaning hard surfaces.


In the pulp and paper industry, Cetearyl Alcohol cosmetic grade is a component of emulsion skimmers.
Cetearyl Alcohol cosmetic grade is a component of processing fluids, and in the paint and varnish industry serves as a component of open-time regulators (so-called OTE).


Cetearyl Alcohol cosmetic grade can be used as an emulsion stabiliser and thickening agent to keep product ingredients from separating, as a fragrance component, opacifying agent, surfactant/emulsifying agent, surfactant/foam booster, as well as an aqueous and non-aqueous viscosity-increasing agent.
Cetearyl Alcohol cosmetic grade can also be successfully used in other industrial sectors.


Cetearyl Alcohol cosmetic grade is a common emulsifier used in a vast array of cosmetics.
Cosmetic creams and lotions are often composed of water and oil-based ingredients, which are held together by substances called emulsifiers.
Cetearyl Alcohol cosmetic grade also acts as an emulsifying agent in cosmetic products.


Without emulsifiers, the formula would separate, causing oil droplets to float on top of the water.
Cetearyl Alcohol cosmetic grade is used as a food ingredient too, and may be employed as a flavouring agent or in food decorations.
Cetearyl Alcohol cosmetic grade, for example, is used in the pictures or colourful lettering on various varieties of sweets or gum.


In industrial applications, Cetearyl Alcohol cosmetic grade is utilised as a lubricant for nuts and bolts in manufacturing applications and is a main component in fuels, chemical intermediates, and plasticizers.
Cetearyl Alcohol cosmetic grade provides an emollient feel to skin and hair. Cetearyl Alcohol cosmetic grade will provide viscosity increase to all systems.


Cetearyl Alcohol cosmetic grade could be used in any product that you apply to your hair or skin and is commonly found in lotions, shampoos creams, and moisturizers.
Cetearyl Alcohol cosmetic grade is used in emulsions as a stabilizer, opacifier, and can support foam in surfactant systems.


Cetearyl Alcohol cosmetic grade can be used in all personal care products including skin care, hair care and color cosmetics.
Cetearyl Alcohol cosmetic grade is also commonly used in hair conditioners and other hair products.
Cetearyl Alcohol cosmetic grade is intended for external use only.


Cetearyl Alcohol cosmetic grade is derived from nature’s delicious and heavenly tasting coconuts, corn, and palm kernels, this amazing ingredient is used as an emollient in skincare and cosmetic formulations and is one of the best stabilizers available in the market these days.
In the pharmaceutical and cosmetics industry, Cetearyl Alcohol cosmetic grade functions as an emulsion stabilizer; opacifying agent; surfactant - foam booster; and viscosity increasing agent.


Cetearyl Alcohol cosmetic grade is often used in creams and lotions.
Cetearyl Alcohol cosmetic grade is fatty alcohol blend of ratios of cetyl and stearyl alcohols from vegetable sources.
Cetearyl Alcohol cosmetic grade is used in many industries but predominantly in personal care.


Cetearyl Alcohol cosmetic grade is a multi-purpose, vegetable-derived blend of cetyl and stearyl fatty alcohol that is usually used as an emollient, emulsifier, and thickener in skincare formulations.
Cetearyl Alcohol cosmetic grade comes in a white, waxy and solid substance that can be melted for various purposes.


As an emulsifier, Cetearyl Alcohol cosmetic grade keeps the oil and water from separating, thus allowing them to mix whilst as a thickener, it helps to transform the viscosity, add shape, and expand a product’s foaming capacity such as in lotions and shampoos.
Contrary to its name, Cetearyl Alcohol cosmetic grade is not actually an 'alcohol', like the ethyl alcohol that we know to be drying on the skin but is in fact a conditioner that helps to soften skin and hair.


Furthermore, Cetearyl Alcohol cosmetic grade is not a liquid that most people can initially think of, rather it is a mixture of pastilles and irregular, waxy flakes.
Consequently, Cetearyl Alcohol cosmetic grade has become a valuable addition to a multitude of applications including commercial and homemade moisturisers, shampoo/conditioner, and facial cleansers.


Cetearyl Alcohol cosmetic grade is used lotions, creams, hair shampoos, conditioners, body washes, makeup products.
Cetearyl Alcohol cosmetic grade is used as an emulsion stabilizer, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.


Cetearyl Alcohol cosmetic grade imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Cetearyl Alcohol cosmetic grade is commonly used in hair conditioners and other hair products.


Cetearyl Alcohol cosmetic grade stabilises emulsions, enhances viscosity and consistency (adds body and thickness), has foam boosting properties and acts as a co-emulsifier.
Cetearyl Alcohol cosmetic grade imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous (oil only) formulations.


Cetearyl Alcohol cosmetic grade is used for viscosity regulations in cosmetic oil-in-water emulsions.
When used in cosmetic products, Cetearyl Alcohol cosmetic grade acts as an emulsifier and stabilizer and prevents products from separating.
Cetearyl Alcohol cosmetic grade is used to help soften the skin and hair and to thicken and stabilize cosmetic products, like lotions and hair products.


Cetearyl Alcohol cosmetic grade is suitable for use in creams, ointments, lotions, hair conditioners, body scrubs, butters, balms etc.
Cetearyl Alcohol cosmetic grade is used as a thickener, co-emulsifier and stabilizer in both oil-in-water and water-in-oil emulsions.
Cetearyl Alcohol cosmetic grade may also be used in anhydrous formulations.


Cetearyl Alcohol cosmetic grade is used as an emulsion stabilizer, opacifying agent, and foam boosting surfactant, as well as an aqueous and nonaqueous viscosity-increasing agent.
Cetearyl Alcohol cosmetic grade imparts an emollient feel to the skin and can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.


Cetearyl Alcohol cosmetic grade is commonly used in hair conditioners and other hair products.
Cetearyl Alcohol cosmetic grade is used as emulsion stabilizer & foam boosting surfactant.
Cetearyl Alcohol cosmetic grade is commonly used in cosmetic products like body lotions, hair products and creams.


The flat raw materials, Cetearyl Alcohol cosmetic grade, can also be used as defoamers, water and soil moisturizers, color formers.
Cetearyl Alcohol cosmetic grade is also used as raw materials for detergents in the production of alcohols, amides and sulfonated products.
Manufacturers also use Cetearyl Alcohol cosmetic grade to stabilize emulsions, which are mixes of oil and water.


Cetearyl Alcohol cosmetic grade is used in personal care products, mainly skin lotions, hair products, and creams.
Cetearyl Alcohol cosmetic grade helps create smoother creams, thicker lotions, and more stable foam products.
Cetearyl Alcohol cosmetic grade helps prevent creams from separating into oil and liquid.


A chemical that Cetearyl Alcohol cosmetic grade helps to keep liquid and oil together is known as an emulsifier.
Cetearyl Alcohol cosmetic grade may also make a product thicker or increase the product’s ability to foam.
Unlike other alcohols, which tend to make skin more dry, Cetearyl Alcohol cosmetic grade traps water and treats skin dryness.


Cetearyl Alcohol cosmetic grade is an all-purpose stabilizer, thickening agent, emulsifier, for making all kinds of lotions and creams, body butters and more, sourced from sustainable coconut and palm oils.
Cetearyl Alcohol cosmetic grade is an effective emusifier with broad PH stability.
Cetearyl Alcohol cosmetic grade contributes to the viscosity of formulations and is commonly used in hair relaxers and conditioners.


Cetearyl Alcohol cosmetic grade is used in shampoo and hair care formulations, as a smoothing agent of hair conditioner, hairdressing gel, shampoo and other hair care products, a kind of anti-winding material.
Cetearyl Alcohol cosmetic grade helps to make products smoother, thicker and more stable.


In the pharmaceutical and cosmetic industry, Cetearyl Alcohol cosmetic grade acts as an emulsion stabilizer; matting agent; Surfactant - foam booster; and viscosity increasing agent.
Cetearyl Alcohol cosmetic grade is often used in creams and lotions.
Cetearyl Alcohol cosmetic grade is also functions as a co-emulsifier.


Cetearyl Alcohol cosmetic grade is a waxy white solid with a mild soapy odor at room temperature, and finds widespread application as an opacifier, emulsion thickener/bodifier and stabilizer, viscosity stabilizer, and rinse-out hair conditioning component.
Cetearyl Alcohol cosmetic grade works to emulsify your water and oil components, opacify your recipe and give a smooth, emolient feel on the skin.


Cetearyl Alcohol cosmetic grade is ideal in a number of applications, including creams and lotions, body butters, solid conditioning bars and balms.
In medicine, Cetearyl Alcohol cosmetic grade can be directly used for W/O emulsifier paste, ointment matrix, etc, hair care, skin care.
Cetearyl Alcohol cosmetic grade is used in fabric softener, antistatic agent of synthetic fibers, wetting agent or as thickening agent of daily chemical


An all-purpose, non-gelling thickening agent widely used throughout the cosmetic industry for the stable consistency it gives to the products, Cetearyl Alcohol cosmetic grade is comprised of 95% fatty acids derived from vegetable oils, primarily palm oil.
Cetearyl Alcohol cosmetic grade is also an emollient, moisturizer, viscosity stabilizer, and foam enhancer.


Cetearyl Alcohol cosmetic grade comes in white, odourless flakes, which are insoluble in cold water, and only very slightly soluble in hot water and alcohol.
Cetearyl Alcohol cosmetic grade is mainly used for viscosity control in cosmetic Oil/Water emulsions.In addition to using Cetearyl Alcohol cosmetic grade in creams, body lotions, etc. you can definitely use it in shampoos and conditioners.


Cetearyl Alcohol cosmetic grade is also used as a raw material for Textile Auxiliaries in industry.
Cetearyl Alcohol cosmetic grade is a waxy white solid with a mild soapy odor at room temperature, and finds widespread application as an opacifier, emulsion thickener/bodifier and stabilizer, viscosity stabilizer, and rinse-out hair conditioning component.


Cetearyl Alcohol cosmetic grade increases viscosity and is used as a stabiliser in conditioners, creams and lotions.
Cetearyl Alcohol cosmetic grade is a very effective thickener that helps form extremely stable emulsions in water-in-oil and oil-in-water preparations.
Cetearyl Alcohol cosmetic grade is used as a co-emulsifier and imparts moisturising feel and lubricity to the skin.


Cetearyl Alcohol cosmetic grade stabilizes an emulsion and also acts as a co-emulsifier, thereby reducing the total amount of surfactant required to form a stable emulsion.
Cetearyl Alcohol cosmetic grade is used as opacifying agent, foam-boosting surfactant, emulsion stabilizer, as well as non-aqueous and aqueous viscosity incline agent.


Unlike the skin-aggravating/drying forms of alcohol (typically listed as SD alcohol, denatured alcohol, or isopropyl alcohol), Cetearyl Alcohol cosmetic grade is an emollient that is gentle, safe, and good for skin.
Beyond Cetearyl Alcohol cosmetic grade’s emollient ability to provide a softening and smoothing effect, it is also used as a carrying agent for other ingredients.


Additionally, Cetearyl Alcohol cosmetic grade can be used to alter the thickness of a formula or to influence the foaming capacity of a cleanser.
Cetearyl Alcohol cosmetic grade is almost always combined with similar-feeling ingredients to create a product’s texture and slip sensation when applied to skin.


Cetearyl Alcohol cosmetic grade is used emollient, emulsifier.
Cetearyl Alcohol cosmetic grade may be used in conjunction with emulsifying wax.
Cetearyl Alcohol cosmetic grade is used as an emollient, emulsifier, thickener and as a carrying agent for other ingredients.


Cetearyl Alcohol cosmetic grade is used for salves, medical skin care products and textile auxiliaries among others.
Cetearyl Alcohol cosmetic grade also appears in the preparation of solid lipid nanoparticles, nanostructured lipid carriers and nanoemulsion of lornoxicam for transdermal delivery.


Cetearyl Alcohol cosmetic grade is used non-gelling thickener, viscosity and consistency enhancer.
Cetearyl Alcohol cosmetic grade is used to bring smoothness and thickness to the products while also providing hydrating properties.


Cetearyl Alcohol cosmetic grade acts as an emollient, texture enhancer, foam stabilizer.
Cetearyl Alcohol cosmetic grade is used all-purpose thickening agent.
Cetearyl Alcohol cosmetic grade is NF grade, 95% active components. Cetearyl Alcohol cosmetic grade is composed of fatty alcohols, 50:50 ratio.


Cetearyl Alcohol cosmetic grade is white flakes or pastilles, mild characteristic odor.
Cetearyl Alcohol cosmetic grade is not soluble in water.
Cetearyl Alcohol cosmetic grade is partially soluble in alcohol. (creates oil-in-water emulsions but only to a limited degree)


Cetearyl Alcohol cosmetic grade is used for external use only.
Cetearyl Alcohol cosmetic grade is used as surfactants, hair shampoos, conditioners, body washes, makeup products.
In topical formulations, Cetearyl Alcohol cosmetic grade will increase viscosity and acts as an emulsifier in water-in-oil and oil-in-water emulsions.


Cetearyl Alcohol cosmetic grade is used preparations for washing face and body, peeling scrubs, anti-acne preparations, make-up bases, foundations, mascara, eyeliners, lipsticks, lip balms, make-up removers, depilation preparations, lubricants, metalworking fluids.
Cetearyl Alcohol cosmetic grade is used Thickener and stabiliser in emulsions, Non-greasy emollient, Increases slip and spreadability, Improves texture and overall feel of products.


Cetearyl Alcohol cosmetic grade is used Consumer Products, Blends, Detergents, Ethoxylation, Household Cleaners, Sulfonation, Surfactants, Lubricants, Fluids & Oilfield, and Esters.
Cetearyl Alcohol cosmetic grade is used Personal Care, Blends, Cosmetics, Deodorant, Esters, Haircare, Skincare, Suncare, andSurfactants.



HOW IS CETEARYL ALCOHOL COSMETIC GRADE PRODUCED?
Cetearyl Alcohol cosmetic grade is a solid organic compound that can be isolated from fats.
Cetearyl Alcohol cosmetic grade is synthetically manufactured by reducing ethyl palmitate with metallic sodium and alcohol or under acidic conditions with lithium aluminum hydride as a catalyst.



USE OF CETEARYL ALCOHOL COSMETIC GRADE IN COSMETICS AND PERSONAL CARE PRODUCTS:
Cetearyl Alcohol cosmetic grade is used in various moisturizers and skin lotions for binding ingredients together.
Additionally, because Cetearyl Alcohol cosmetic grade effectively moisturizes and relieves dry skin, it’s commonly used in skincare and hair care products such as shampoos, conditioners, and anti-frizz hair creams.



WHY IS CETEARYL ALCOHOL COSMETIC GRADE USED?
Cetearyl Alcohol cosmetic grade and the other fatty alcohols keep an emulsion from separating into its oil and liquid components.
These ingredients are also used to alter the thickness of liquid products and to increase foaming capacity or to stabilize foams.



WHAT IS CETEARYL ALCOHOL COSMETIC GRADE USED FOR?
Cetearyl Alcohol cosmetic grade is usually known as an inactive ingredient because it does not extend help to the therapeutic purposes of a cosmetic product, but mostly just to keep everything together.

Cetearyl Alcohol cosmetic grade binds the products together and prevents them from separating.
Uses of Cetearyl Alcohol cosmetic grade extend further in providing thickness and much-needed bulk to cosmetic and personal care products.


*Skin care:
Cetearyl Alcohol cosmetic grade is used in a range of moisturizers and skin lotions because it imparts few moisturizing properties apart from binding the cream together.
Further, it heals dry skin – making Cetearyl Alcohol cosmetic grade skincare quite popular


*Hair care:
Cetearyl Alcohol cosmetic grade treats hair to make them soft while trapping in water to hydrate them.
It is commonly found in shampoos and anti-frizz hair creams.
Is Cetearyl Alcohol cosmetic grade bad for hair?
The answer is no, as it is not drying like other types of alcohols



ORIGIN OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is made from a combination of cetyl and stearyl alcohol.
These alcohols are mostly derived from plant-based sources such as coconut, palm, and vegetable oil.
Further, Cetearyl Alcohol cosmetic grade can also be made in the laboratory.



WHAT DOES CETEARYL ALCOHOL COSMETIC GRADE DO IN A FORMULATION?
*Bulking
*Skin conditioning
*Smoothing
*Surfactant
*Viscosity controlling



SAFETY PROFILE OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is a safe and non-toxic ingredient that poses little to no risk when applied.
A minor side effect could be rashes on highly sensitive skin; therefore, a patch test is required.
Cetearyl Alcohol cosmetic grade is also biodegradable and does not pose any known environmental hazard.
Additionally, plant-based derivatives make Cetearyl Alcohol cosmetic grade halal and vegan.



ALTERNATIVES OF CETEARYL ALCOHOL COSMETIC GRADE:
*HYDROGENATED COCONUT OIL,
*HYDROGENATED JOJOBA OIL,
*HYDROGENATED SWEET ALMOND OIL



DIRECTIONS FOR USE OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is added to oils and melted during the oil phase, and is a good secondary emulsifier when amounting to less than 5%.
Use Cetearyl Alcohol cosmetic grade between 0.5 - 6% in the oil phase (e.g., 3% for a creamy lotion with approximately 3% emulsifier), and melt at 54ºC / 129ºF.



FUNCTIONS OF CETEARYL ALCOHOL COSMETIC GRADE IN COSMETIC PRODUCTS:
*EMULSION STABILISING
Cetearyl Alcohol cosmetic grade supports emulsion formation and improves product stability

*OPACIFYING
Cetearyl Alcohol cosmetic grade reduces transparency and translucency by clouding the product

*SKIN CONDITIONING - EMOLLIENT
Cetearyl Alcohol cosmetic grade softens and smoothens the skin

*SURFACTANT - CLEANSING
Surface-active agent to clean skin, hair and / or teeth

*SURFACTANT - EMULSIFYING
Cetearyl Alcohol cosmetic grade allows the formation of finely dispersed mixtures of oil and water (emulsions)

*SURFACTANT - FOAM BOOSTING
Cetearyl Alcohol cosmetic grade improves foam quality by increasing volume, structure and / or durability

*VISCOSITY CONTROLLING
Cetearyl Alcohol cosmetic grade increases or decreases the viscosity of cosmetic products



FUNCTION OF CETEARYL ALCOHOL COSMETIC GRADE:
*Cetearyl Alcohol cosmetic grade`s vegetable based, eco-friendly, and extremely mild
*Cetearyl Alcohol cosmetic grade can be soluble in water or ethanol.
*Cetearyl Alcohol cosmetic grade is compatible with both cationic and nonionic surfactants.
*Cetearyl Alcohol cosmetic grade is stable below 100℃.
*Overall good chemical stability, excellent resistance to heat, light and pressure, strongly resistant to both acid and alkaline substances.
*Excellent thickener and emulsifier with good anti-bacterial properties.



STORAGE OF CETEARYL ALCOHOL COSMETIC GRADE:
Store Cetearyl Alcohol cosmetic grade in a sealed container in a cool, dry well-ventilated area.
Shelf life:
12 months from the date of manufacture.



PROPERTIES AND USES OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is an organic compound obtained from saturated fatty alcohols of coconut.
Since it is lighter than cetyl alcohol, Cetearyl Alcohol cosmetic grade can be used in baby care and sensitive skin products.
Cetearyl Alcohol cosmetic grade is used as emulsion stabilizer, opacifying agent, foam strengthening surfactant, viscosity increasing agent.



PROPERTIES AND APPLICATIONS OF CETEARYL ALCOHOL COSMETIC GRADE:
Product advantages:
*effective emollient and conditioner for washing and care cosmetics for skin and hair,
*provides smoothness of skin and hair,
*restores hair elasticity and softness,
*rheology modifier (improves the consistency of preparations), foam stabilizer,
*stabilizes emulsions such as oil in water (O/W), water in oil (W/O) and anhydrous preparations,
*does not cause allergic reactions,
*based on renewable plant raw materials.



CETEARYL ALCOHOL COSMETIC GRADE WITH:
*skin lotions
*moisturizers
*skin creams
*sunscreen
*shampoo
*conditioners
*hair removal creams
*hair mousse
*anti-frizz hair cream
*hair dye
*mascara



CETEARYL ALCOHOL COSMETIC GRADE AT A GLANCE:
*Fatty alcohol with emollient (softening/smoothing) properties for skin
*Known to be gentle and safe (unlike skin-damaging/drying forms of alcohol such as SD or denatured)
*May also be used to alter the thickness of a formula or influence the foaming capacity of a cleanser
*Can be derived naturally, as in coconut fatty alcohol, or made synthetically
*As a raw material, it is a white, waxy solid (often in flake form)



BENEFITS OF CETEARYL ALCOHOL COSMETIC GRADE:
*Encourages even application
*Prevent separation of ingredients
*Thickens formula
*Softens the skin



FEATURES AND BENEFITS OF CETEARYL ALCOHOL COSMETIC GRADE:
*Biodegradable
*Bodying Agent
*Emollient
*Emulsion Stabilizing Agent
*Feel Modification/Enhancement
*Opacifier
*Plant Derived / Vegetal Based
*Viscosity Stabilizer



FORMULATING GUIDELINES OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade melts at approximately 50 C (48 – 55 C) and most often is added to the oil phase where it is heated until all components melt.

In some instances, however, Cetearyl Alcohol cosmetic grade can be added directly to the water phase provided the batch is heated hot enough to melt all the formula’s waxes and you have enough agitation to get thorough mixing.
If you don’t meet these requirements the resulting emulsion can end up feeling gritty.



WHAT DOES CETEARYL ALCOHOL COSMETIC GRADE DO IN SKIN AND HAIR CARE?
Cetearyl Alcohol cosmetic grade has emollient properties, which means it softens and smooths the skin and hair.
Manufacturers also use this ingredient to alter the texture and performance of their formulas.
They may add it to products to:

*create an emulsion, which is a blend of oils and water
*stabilize foams
*increase foaming capacity
*change the thickness of liquids



SCIENTIFIC FACTS OF CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade, Cetyl, Myristyl and Behenyl Alcohols are straight-chain alcohols.
Isostearyl Alcohol is a branched chain alcohol.

Cetearyl Alcohol cosmetic grade is a mixture of mostly of Cetyl and Stearyl Alcohols, which are fatty alcohols that occur naturally in small quantities in plants and animals.
Myristyl Alcohol is a 14 carbon chain.

Cetyl Alcohol has 16 carbons, while Stearyl and Isostearyl Alcohols have 18 carbons.
Behenyl Alcohol is the largest fatty alcohol in this group with 22 carbons.



FUNCTIONS OF CETEARYL ALCOHOL COSMETIC GRADE:
*Emollient
Cetearyl Alcohol cosmetic grade is an emollient that can be used in water-in-oil emulsions, oil-in-water emulsions, and anhydrous formulations.
Cetearyl Alcohol cosmetic grade gives the skin and hair a soft feel and adds body to creams and lotions.

*Emulsifying
Cetearyl Alcohol cosmetic grade emulsifies immiscible liquids by modifying the interfacial tension (water and oil).

*Emulsion Stabilizer
Cetearyl Alcohol cosmetic grade helps product formulas to maintain texture, consistency, and thickness.

*Opacifying Agent
Cetearyl Alcohol cosmetic grade acts as an opacifier that provides a rich, creamy, luxurious feel and appearance to formulations.
Cetearyl Alcohol cosmetic grade prevents light transmission and adds brightness and whiteness to the end product.
Cetearyl Alcohol cosmetic grade has excellent formulation compatibility and stability.

*Surfactant
Cetearyl Alcohol cosmetic grade is a non-ionic surfactant that helps boost foam in a formulation and improves the efficacy of cleansers.

*Viscosity Controller
Cetearyl Alcohol cosmetic grade improves the viscosity of creams, lotions, cleansers, and shower/bath products.

*Foam Booster
Cetearyl Alcohol cosmetic grade improves the quality of the foam produced by increasing one or more of the following properties: volume, texture, and stability.



FUNCTIONS OF CETEARYL ALCOHOL COSMETIC GRADE IN COSMETIC PRODUCTS:
*EMULSION STABILISING:
Supports emulsion formation and improves product stability

*OPACIFYING:
Reduces transparency and translucency by clouding the product

*SKIN CONDITIONING - EMOLLIENT:
Softens and smoothens the skin

*SURFACTANT - CLEANSING:
Surface-active agent to clean skin, hair and / or teeth

*SURFACTANT - EMULSIFYING:
Allows the formation of finely dispersed mixtures of oil and water (emulsions)

*SURFACTANT - FOAM BOOSTING:
Improves foam quality by increasing volume, structure and / or durability

*VISCOSITY CONTROLLING:
Increases or decreases the viscosity of cosmetic products



BENEFITS OF CETEARYL ALCOHOL COSMETIC GRADE:
*Moisturises the skin:
In moisturisers, the emollient properties found in Cetearyl Alcohol cosmetic grade help build an oily layer that traps water molecules in the skin.
As Cetearyl Alcohol cosmetic grade is known, dry skin can be caused by low air moisture, irregular weather changes, and more.

This makes the skin to appear lustreless.
With Cetearyl Alcohol cosmetic grade for skin in your homemade products, you can be confident that not only your skin will all the beauty benefits but it is also safe from the damaging effects of mass-produced cosmetic products.

*Emulsifies:
Cetearyl Alcohol cosmetic grade in skincare goods works as an emulsifier that stabilises ingredients so that when you apply it to your skin or hair, they do not separate.
Moreover, Cetearyl Alcohol cosmetic grade thickens the product's formula.

*Aids in even application:
Cetearyl Alcohol cosmetic grade helps spread the product evenly on your skin, resulting in overall effectiveness.



IS CETEARYL ALCOHOL COSMETIC GRADE BAD FOR SKIN?
Cetearyl Alcohol cosmetic grade is a fatty alcohol which helps to trap water and leave the skin feeling smoother.
Cetearyl Alcohol cosmetic grade is not the same as other alcohols like ethyl or rubbing alcohol.
Cetearyl Alcohol cosmetic grade is known to effectively condition and soften the skin and hair.



WHAT IS CETEARYL ALCOHOL COSMETIC GRADE USED FOR?
Cetearyl Alcohol cosmetic grade is usually known as an inactive ingredient because it does not extend help to the therapeutic purposes of a cosmetic product, but mostly just to keep everything together.
Cetearyl Alcohol cosmetic grade binds the products together and prevents them from separating.
Uses of Cetearyl Alcohol cosmetic grade extend further in providing thickness and much-needed bulk to cosmetic and personal care products.

*Skin care:
Cetearyl Alcohol cosmetic grade is used in a range of moisturizers and skin lotions because it imparts few moisturizing properties apart from binding the cream together.
Further, Cetearyl Alcohol cosmetic grade heals dry skin – making Cetearyl Alcohol cosmetic grade skincare quite popular

*Hair care:
Cetearyl Alcohol cosmetic grade treats hair to make them soft while trapping in water to hydrate them.
Cetearyl Alcohol cosmetic grade is commonly found in shampoos and anti-frizz hair creams.

Is Cetearyl Alcohol cosmetic grade bad for hair?
The answer is no, as it is not drying like other types of alcohols



FUNCTIONS OF CETEARYL ALCOHOL COSMETIC GRADE:
*Emollient:
Cetearyl Alcohol cosmetic grade softens and softens the skin
*Emulsifying agent:
Cetearyl Alcohol cosmetic grade promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Emulsion Stabilizer:
Cetearyl Alcohol cosmetic grade aids the emulsification process and improves emulsion stability and shelf life
*Foam Sinergist:
Cetearyl Alcohol cosmetic grade improves the quality of foam produced by increasing one or more of the following properties: volume, texture and/or stability
*Opacifier:
Cetearyl Alcohol cosmetic grade reduces the transparency or translucency of cosmetics
*Surfactant:
Cetearyl Alcohol cosmetic grade reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
*Viscosity control agent:
Cetearyl Alcohol cosmetic grade increases or decreases the viscosity of cosmetics



WHAT DOES CETEARYL ALCOHOL COSMETIC GRADE DO IN A FORMULATION?
*Bulking
*Skin conditioning
*Smoothing
*Surfactant
*Viscosity controlling



WHAT DOES CETEARYL ALCOHOL COSMETIC GRADE DO IN SKIN AND HAIR CARE?
Cetearyl Alcohol cosmetic grade has emollient properties, which means it softens and smooths the skin and hair.



HOW TO USE CETEARYL ALCOHOL COSMETIC GRADE FOR HAIR?
As mentioned before Cetearyl Alcohol cosmetic grade is a fatty alcohol that is used as an emollient, thickening agent, and emulsifier in hair care products.
Cetearyl Alcohol cosmetic grade is used in to give stability to the formula and to enhance the texture and feel of the product.

Cetearyl Alcohol cosmetic grade has gained popularity and can be seen in most shampoos, conditioners, hair creams, hair mousses, etc. Cetearyl Alcohol cosmetic grade does not dry the hair; making it ideal for daily use.

Considering it’s derived from natural components Cetearyl Alcohol cosmetic grade is non-toxic and can be safely used on your hair.
This non-drying fatty alcohol, Cetearyl Alcohol cosmetic grade, improves the hydration level of the strands whilst reducing frizz, and thus smoothens the hair’s texture.



OTHER INGREDIENTS IT IS COMPATIBLE WITH:
Cetearyl Alcohol cosmetic grade works well with most emulsifiers as well as other hair care ingredients.
However, Cetearyl Alcohol cosmetic grade should not be used in conjugation with Ceteareth-20 as it is comedogenic and can clog the pores.



HOW TO USE CETEARYL ALCOHOL COSMETIC GRADE?
Heat the water phase and oil phase separately to 54 degree
Melt our Cetearyl Alcohol cosmetic grade and add it to the emulsion.
Blend Cetearyl Alcohol cosmetic grade well until an emulsion is formed.

Finally, adjust the pH.
Emulsion stabiliser, co-emulsifier and viscosity increasing agent that provides an emollient skin feel.
Recommended topical usage levels of 2-30%.



CETEARYL ALCOHOL COSMETIC GRADE FOR HAIR:
Cetearyl Alcohol cosmetic grade is great for hair as it helps to moisturise, hydrate, and soften hair.
Cetearyl Alcohol cosmetic grade is used for its conditioning, detangling and also anti-frizz properties.
Cetearyl Alcohol cosmetic grade is commonly used in hair conditioners to help thicken the product and add moisture to the hair.



CETEARYL ALCOHOL COSMETIC GRADE FOR SKIN:
Cetearyl Alcohol cosmetic grade is commonly used in skincare products like moisturisers, creams and lotions.
Cetearyl Alcohol cosmetic grade is an emollient as it helps moisturise and soften the skin, but it also locks in the moisture.
Cetearyl Alcohol cosmetic grade adds a wonderful, thick and creamy skin feel to skin products.
Cetearyl Alcohol cosmetic grade feels lighter than a product thickened with wax.



PRODUCTS THAT CAN CONTAIN CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is an ingredient in many products, such as:
*moisturizing creams and lotions
*shampoo
*conditioners
*exfoliants
*sunscreens
*hair sprays
*hair dyes
*hair mousse
*facial cleansers
*makeup, including foundations, lipstick, and mascara
*shaving creams
*body washes and bar soaps
*baby wipes
*antiperspirants and deodorants
*toothpaste
*nail treatment
*hand sanitizer
*body oil
*mouthwash
*fragrance
*glitter



HOW TO USE CETEARYL ALCOHOL COSMETIC GRADE:
Cetearyl Alcohol cosmetic grade is normally used at concentrations of 1-25% in your recipe.
Cetearyl Alcohol cosmetic grade will help stabilise and thicken emulsions, but it isn’t an emulsifier.

Don’t try to use it as an emulsifying wax, Cetearyl Alcohol cosmetic grade won’t work!
Cetearyl Alcohol cosmetic grade needs to be melted before it is added to your recipe.
You can melt Cetearyl Alcohol cosmetic grade and mix it into the oil phase of your recipe.



HOW CETEARYL ALCOHOL COSMETIC GRADE WORKS:
Cetearyl Alcohol cosmetic grade works as a stabilizer and prevents the oil and water from separating.
Cetearyl Alcohol cosmetic grade is a surfactant that builds foam and thickness in the products.



CONCENTRATION AND SOLUBILITY OF CETEARYL ALCOHOL COSMETIC GRADE:
The recommended concentration of use is 0.5%-10%.
Cetearyl Alcohol cosmetic grade is soluble in alcohols and oils and is insoluble in water.



OCCURRENCE IN OTHER PRODUCTS:
Medicinal products and medical devices to apply at the eye or for wound treatment, technical cooling lubricants, textiles, evaporation protection agents



BACKGROUND INFORMATION OF CETEARYL ALCOHOL COSMETIC GRADE ON USE IN COSMETICS:
Cetearyl Alcohol cosmetic grade (cetylstearyl alcohol) is a mixture of cetyl alcohol (hexadecanol) and stearyl alcohol (octadecanol).
This concerns so-called fatty alcohols since the two components are frequently produced by a reduction of the corresponding fatty acids.



WHAT IS CETEARYL ALCOHOL COSMETIC GRADE MASS BALANCE?
Cetearyl Alcohol cosmetic grade almost always comes from palm oil, as it is nearly impossible to source Cetearyl Alcohol cosmetic grade from other plants. There is no producer that will guarantee Cetearyl Alcohol cosmetic grade comes from non-palm sources.
It is also difficult to make emulsions without cetearyl or cetyl/stearyl alcohol.
Therefore, it is critical to use Cetearyl Alcohol cosmetic grade from Mass Balance palm certified sources as a step towards sustainable palm use.
Learn more about sustainable palm oil and mass balance here.



PHYSICAL and CHEMICAL PROPERTIES of CETEARYL ALCOHOL COSMETIC GRADE:
Appearance: White waxy solid in flake/prill form at 20°C; also available in white beads.
Density: Approximately 0.81 g/ml at 25°C.
Melting Point: Approximately 49°C, with a range of 45 - 50°C.
Acid Value: Approximately 0.0 mg KOH/g.
Saponification Value: Approximately 0.3 mg KOH/g.
Iodine Value: Approximately 0.4 g I2/100g.
CAS No.: 67762-27-0.
Molecular Formula: C18H38O.C16H34O.
Assay: 99%.
Application: Pharma grade or research purpose.
Storage: Preserve in tight, light-resistant containers in a cool place.
INCI Name: Cetearyl alcohol.
Charge: Non-ionic.

Solubility: Oil.
Usage Rate: 1 - 15%.
Vegan: Yes, sourced from sustainable RSPO approved palm oil.
Shelf Life: 24 months.
Storage Conditions: Store in a cool, dry place in
original sealed containers, protected from moisture.
Ideal storage temperature is below 40°C.
Appearance: White granule
Color(APHA): ≤10
Acid Value: ≤0.1 mg KOH/g
Saponification Value: ≤0.5 mg KOH/g
Hydroxyl Value: 205-220 mg KOH/g
Iodine Value: ≤0.5gi/100g

Total alcohol: ≥98%
C16/C18 ratio: 30/70; 35/65; 50/50
Boiling Point: 249°C
Melting Point: 50°C
pH: 6.0
Viscosity: 53 cP
InChIKey: UBHWBODXJBSFLH-UHFFFAOYSA-N
Boiling Point: 515.169°C at 760 mmHg
Melting Point: 51-53°C
Flash Point: 132.853ºC
Purity: 98%
Density: 0.842 g/cm3
Solubility: Soluble in Chloroform (Slightly),
Methanol (Slightly, Sonicated)

Appearance: White to Off-white Solid
Storage: Store at 2-8°C under inert atmosphere
Assay: 99%min
EINECS: 267-008-6
Refractive Index: 1.46
Appearance: White beads
Charge: Non-ionic
Solubility: Oil
Melting point: 45 - 50°C
Usage rate: 1 - 15%
Vegan: Yes
Melting point: 48 to 56 °C (118 to 133 °F; 321 to 329 K)
Molecular Weight: 512.9

Hydrogen Bond Donor Count: 2
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 30
Exact Mass: 512.55323154
Monoisotopic Mass: 512.55323154
Topological Polar Surface Area: 40.5 Ų
Heavy Atom Count: 36
Formal Charge: 0
Complexity: 267
Isotope Atom Count: 0
Defined Atom Stereocenter Count: 0
Undefined Atom Stereocenter Count: 0

Defined Bond Stereocenter Count: 0
Undefined Bond Stereocenter Count: 0
Covalently-Bonded Unit Count: 2
Compound Is Canonicalized: Yes
Formula: C34H72O2
Appearance: white waxy solid
Mol weight: 512.94
Purity: 99%
% Cetyl alcohol: 45-55%
% Stearyl alcohol: 45-55%
CAS no: 67762-27-0
Density: 0.811

Melting Point: 50-54 C
HLB: 15.5
Solubility: insoluble in water
appearance: waxy solid,
colour from white to light yellow,
solidification point: from 50 to 54 ᵒC,
carbonyl value: max. 200 mg/kg,
iodine value: max. 1.0 g I2/100 g.
Appearance: White to Off-White Solid
Melting Point: 51 - 53°C
Molecular Weight: 512.93
Storage: 4°C
Solubility: Chloroform (Slightly), Methanol (Slightly, Sonicated)
Molecular Formula: C18H38O.C16H34O

Molar Mass: 512.941
Density: 0.8[at 20℃]
Melting Point: 51 - 53°C
Boling Point: 330.79℃[at 101 325 Pa]
Flash Point: 132.853°C
Water Solubility: 72.197μg/L at 25℃
Solubility: Practically insoluble in water, soluble in ethanol (96 per cent) and in light petroleum.
When melted, it is miscible with fatty oils, with liquid paraffin and with melted wool fat.
Vapor Presure: 0.001Pa at 25℃
Appearance: Solid
Color: White to Off-White
pKa: 15.76[at 20 ℃]
Storage Condition: Refrigerator
Refractive Index: 1.46



FIRST AID MEASURES of CETEARYL ALCOHOL COSMETIC GRADE:
-Description of first-aid measures:
*If inhaled:
If breathed in, move person into fresh air.
*In case of skin contact:
Wash off with soap and plenty of water.
*In case of eye contact:
Flush eyes with water as a precaution.
*If swallowed:
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of CETEARYL ALCOHOL COSMETIC GRADE:
-Environmental precautions:
No special environmental precautions required.
-Methods and materials for containment and cleaning up:
Sweep up and shovel.
Keep in suitable, closed containers for disposal



FIRE FIGHTING MEASURES of CETEARYL ALCOHOL COSMETIC GRADE:
-Extinguishing media:
*Suitable extinguishing media:
Use water spray, alcohol-resistant foam, dry chemical or carbon dioxide.
-Further information:
No data available



EXPOSURE CONTROLS/PERSONAL PROTECTION of CETEARYL ALCOHOL COSMETIC GRADE:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
*Skin protection:
Handle with gloves.
Wash and dry hands.
Full contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
Splash contact:
Material: Nitrile rubber
Minimum layer thickness: 0,11 mm
Break through time: 480 min
*Body Protection:
Choose body protection in relation to its type
*Respiratory protection:
Respiratory protection is not required.
-Control of environmental exposure:
No special environmental precautions required.



HANDLING and STORAGE of CETEARYL ALCOHOL COSMETIC GRADE:
-Precautions for safe handling:
*Hygiene measures:
General industrial hygiene practice.
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Store in cool place.
Keep container tightly closed in a dry and well-ventilated place.



STABILITY and REACTIVITY of CETEARYL ALCOHOL COSMETIC GRADE:
-Reactivity:
No data available
-Chemical stability:
Stable under recommended storage conditions.
-Possibility of hazardous reactions:
No data available
-Conditions to avoid:
No data available


CETEARYL BEHENATE
Nom INCI : CETEARYL DIMETHICONE Classification : Silicone Ses fonctions (INCI) Emollient : Adoucit et assouplit la peau
CETEARYL DIMETHICONE
CETEARYL ETHYLHEXANOATE N° CAS : 90411-68-0, Emollient : Adoucit et assouplit la peau, Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance Agent d'entretien de la peau : Maintient la peau en bon état
CETEARYL ETHYLHEXANOATE
Mix of Hexanoic acid, 2-ethyl, hexadecyl (C16) ester and Hexanoic acid, 2-ethyl, octadecyl (C18) ester. cas no: 59130-69-7
CETEARYL GLUCOSIDE
CETEARYL ISONONANOATE, N° CAS : 111937-03-2, Nom INCI : CETEARYL ISONONANOATE, Emollient : Adoucit et assouplit la peau, Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance, Agent d'entretien de la peau : Maintient la peau en bon état
CETEARYL ISONONANOATE
isononanoic acid, C16-18-alkyl esters cas no: 111937-03-2
CETEARYL METHICONE
Nom INCI : CETEARYL NONANOATE, Emollient : Adoucit et assouplit la peau
CETEARYL NONANOATE
Nom INCI : CETEARYL OLIVATE Compatible Bio (Référentiel COSMOS) Ses fonctions (INCI) Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance
Cetearyl Octanoate
Cetearyl Octanoate [Uniral CO]; T/N: Jeechem CEO;T/N: Dermol 1688; T/N: Luvitol EHO; 2-Ethylhexanoic Acid, Cetyl 2-ethylhexanoate CAS Number: 90411-68-0
CETEARYL OLIVATE
CETEARYL PALMITATE, Hexadecanoic acid, C16-18-alkyl esters; N° CAS : 93820-81-6, Nom INCI : CETEARYL PALMITATE, N° EINECS/ELINCS : 298-663-6, Emollient : Adoucit et assouplit la peau, Conditionneur capillaire : Laisse les cheveux faciles à coiffer, souples, doux et brillants et / ou confèrent volume, légèreté et brillance, Agent d'entretien de la peau : Maintient la peau en bon état
CETEARYL PALMITATE
CETEARYL PHOSPHATE, N° CAS : 90506-73-3 Nom INCI : CETEARYL PHOSPHATE N° EINECS/ELINCS : 291-938-1 Agent d'entretien de la peau : Maintient la peau en bon état
CETEARYL PHOSPHATE
CETEARYL STEARATE; N° CAS : 93820-97-4, Nom INCI : CETEARYL STEARATE, N° EINECS/ELINCS : 298-680-9, Agent d'entretien de la peau : Maintient la peau en bon état, Agent de protection de la peau : Aide à éviter les effets néfastes des facteurs externes sur la peau; Octadecanoic acid, C16-18-alkyl esters; Octadecanoic acid, C16-18 (even numbered)-alkyl esters
CETEARYL STEARATE
CETETH-10, N° CAS : 9004-95-9 / 14529-40-9, Nom INCI : CETETH-10, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (10 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (10) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (10) cetyl ether; POE (10) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (10) hexadecyl ether
CETEARYL STEARYL ALCOHOL
LANETTE AOK; CETYL ALCOHOL - STEARYL ALCOHOL; hexadecan-1-ol,octadecan-1-ol; CETYLSTEARYL ALCOHOL; CETEARYL ALCOHOL; CETOSTEARYL ALCOHOL; C16-18;C16-C18 n-Hexadecyl-stearyl alcohol (mixed); CAS NO:8005-44-5
CETETH-10
CETETH-10 PHOSPHATE, N° CAS : 50643-20-4, Nom INCI : CETETH-10 PHOSPHATE, Agent nettoyant : Aide à garder une surface propre, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation
CETETH-10 PHOSPHATE
CETETH-12, N° CAS : 9004-95-9 / 94159-75-8, Nom INCI : CETETH-12, Nom chimique : 3,6,9,12,15,18,21,24,27,30,33,36-dodecaoxapentacontan-1-ol, N° EINECS/ELINCS : 500-014-1 / 303-255-9, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile) Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (12 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (12) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (12) cetyl ether; POE (12) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (12) hexadecyl ether
CETETH-12
CETETH-13, N° CAS : 9004-95-9, Nom INCI : CETETH-13, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (13 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (13) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (13) cetyl ether; POE (13) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (13) hexadecyl ether
CETETH-13
CETETH-15, N° CAS : 9004-95-9, Nom INCI : CETETH-15, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (15 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (15) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (15) cetyl ether; POE (15) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (15) hexadecyl ether
CETETH-15
CETETH-2, N° CAS : 9004-95-9, Nom INCI : CETETH-2, N° EINECS/ELINCS : 500-014-1, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (2 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (2) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (2) cetyl ether; POE (2) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (2) hexadecyl ether
CETETH-2
CETETH-20, N° CAS : 9004-95-9, Nom INCI : CETETH-20, Classification : Composé éthoxylé, Ses fonctions (INCI), Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (20 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; . 9004-95-9 [RN]; Polyoxyethylene (20) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (20) cetyl ether; POE (20) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (20) hexadecyl ether
CETETH-20
CETETH-23, N° CAS : 9004-95-9, Nom INCI : CETETH-23, Agent nettoyant : Aide à garder une surface propre, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile), Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Cetomacrogol 1 - 50 moles ethoxylated; Hexadecan- l-ol, ethoxylated; 2-[2-(hexadecyloxy)ethoxy]ethan-1-ol; 2-[2-(Hexadecyloxy)ethoxy]ethanol; Hexadecan-1-ol, ethoxylated; Poly (oxy - 1,2 - ethanediyl) - alpha - hexadecyl - omega - hydroxy -; Poly(oxy-1,2-ethanediyl), a-hexadecyl-w-hydroxy-; Poly(oxy-1,2-ethanediyl), alpha-hexadecyl-omega-hydroxy- (23 EO); Poly(oxy-1,2-ethanediyl), α-hexadecyl-ω-hydroxy-; 9004-95-9 [RN]; Polyoxyethylene (23) cetyl ether; 198563-32-5 [RN]; C16E2; Diethylene glycol monohexadecyl ether; Hexadecyldiglycol; POE (23) cetyl ether; POE (23) ISOHEXADECYL ETHER; POE ISOHEXADECYLETHER; Polyethylene glycol (23) hexadecyl ether