SYNONYMS Best One Soya;Bionatrol;CAP 18;CAP 18 (oil);CT 7000;Destiny HC;Fats and Glyceridic oils, soybean;HY 3050 CAS NO:8001-22-7

DESCRIPTION:

Soybean Wax (Soywax) for scented container candles (C3) is pure to achieve optimal surface results.
The soy wax from our store is an excellent solution for making your own poured or scented candles as it has numerous advantages.
We advise blending Soybean Wax (Soywax) with 10% stearin and pouring it with fragrance at 75°C (167°F).
Soybean Wax (Soywax) can also be used for making wax melts by adding 5% beeswax.


CAS number 68334-28-1



Soy wax for containers only (not suitable for molds candles)
Our soy wax comes in three container blends.
These wax beads are more convenient for measuring proper amounts of wax depending on your project.

Soybean Wax (Soywax) is a renewable resource and biodegradable.
When our soy candles are burning the liquid wax is not hot enough to burn your skin, and if spilled can be cleaned up with soap and water.

Soy wax isn’t actually a wax at all; it’s a form of soybean oil (partially-hydrogenated oil to be specific).
Soybean Wax (Soywax) is made from soybeans so is a natural and biodegradable substance.

Soybean Wax (Soywax) is made from soybean oil, the oil is treated with a hydrogen solution to solidify the oil into wax.
Soybean Wax (Soywax) is all natural meaning Soybean Wax (Soywax) is non-toxic, colourless and a clean-burning fuel source.
On the other hand, paraffin wax is created from petroleum (the same property used to make oil), this wax is also colourless and is clean-burning, however, there are many factors that make soy wax the superior type of wax.

In addition to being all natural, soy wax releases fewer toxins, burns for longer than paraffin wax and has a lower melting point, making it easier to burn in all kinds of climates.

Because paraffin wax is produced as a byproduct of crude oil, it can actually be harmful to the environment due to the toxins emitted.
When paraffin wax candles burn, they emit black fumes which contribute to air pollution, whereas soy wax candles produce far fewer emissions and are safer for people and the environment.
At Green Nation Life, we use only the highest quality soy wax to ensure beautiful, safe, long-lasting candles.
Soybean Wax (Soywax) candles are proudly hand-poured in Melbourne, Australia.


Soybean Wax (Soywax) is a hydrogenated form of soybean oil.
Soybean Wax (Soywax) occurs as a waxy solid that is white in color and has a neutral odor.
Soybean Wax (Soywax) is100% plant-based

Soybean Wax (Soywax) hasLow melting point: 52-54 ° C
Soybean Wax (Soywax) without additives and is not tested on animals.

Soy wax offers several advantages over traditional paraffin wax.
It's a natural, renewable resource derived from soybeans, making it eco-friendly and biodegradable. Candle soy wax burns cleaner with little to no soot, reducing indoor air pollution.

Its lower melting point means longer-lasting candles.
Soybean Wax (Soywax) has a higher fragrance-holding capacity, resulting in a more potent scent throw.
Soy wax spills are easy to clean.

These benefits make soy wax an excellent choice for environmentally-conscious consumers seeking cleaner, sustainable, and high-quality candle options.


Soybean Wax (Soywax) is a vegetable wax made from the oil of soybeans.
After harvesting, the beans are cleaned, cracked, de-hulled, and rolled into flakes.
The oil is then extracted from the flakes and hydrogenated.

The U.S. grows the vast majority of the world's soybeans, primarily in the Midwestern United States.
Soy wax is a vegetable wax made from the oil of soybeans.
After harvesting, the beans are cleaned, cracked, de-hulled, and rolled into flakes.


The oil is then extracted from the flakes and hydrogenated.
The hydrogenation process converts some of the fatty acids in the oil from unsaturated to saturated.
This process dramatically alters the melting point of the oil, making it solid at room temperature. The leftover bean husks are commonly used as animal feed.
The U.S. grows the vast majority of the world's soybeans, primarily in Illinois, Iowa, and Indiana.

Soybean Wax (Soywax) to make candles and beauty treatments.
Soybean Wax (Soywax) is a vegan alternative to conventional waxes.
Soybean Wax (Soywax) is creamy and soft in appearance that lasts in all climates.

Soy candle wax is ideal for candles in container and for massage candles, since when melted it is used as a massage oil on the skin because its melting point is low, with an optimal result, leaving a moisturized and smooth dermis.
If additives such as essential oils or fragrances are added, the result will be an aromatic candle.
Soy wax is versatile and noble, so it can be part of products such as creams, lipsticks, ointments, ointments, balms and hair products with unique results.

Soy wax is a 100% natural wax derived from the vegetable soybeans.
Soybeans are one of the major agricultural crops grown in the United States, behind only corn.
Most of the world’s soybeans are grown and harvested close to home for us in the Midwestern United States.

After the beans are harvested, they are then cleaned, cracked, de-hulled, and rolled into flakes.
Soybean oil is extracted from the flakes and the leftover flakes are used for animal feed.
Paraffin wax - the most commonly used candle wax - is made in a contrasting way and because of this, the cost is much cheaper.
Paraffin wax is the product of the oil purification process from petroleum, coal, or oil shale.
When you remove the waxy substance from crude oil, you’re left with paraffin wax.


Soybean Wax (Soywax) is made by the full hydrogenation of soybean oil;[1][2] chemically this gives a triglyceride, containing a high proportion of stearic acid.
Soybean Wax (Soywax) is typically softer than paraffin wax and with a lower melting temperature, in most combinations.
However, additives can raise this melting point to temperatures typical for paraffin-based candles.

The melting point ranges from 49 to 82 degrees Celsius (130 to 150 degrees Fahrenheit), depending on the blend.
The density of soy wax is about 90% that of water or 0.9 g/ml.
This means nine pounds (144 oz) of wax will fill about ten 16-oz jars (160 fluid ounces of volume). Soy wax is available in flake and pellet form and has an off-white, opaque appearance.

Its lower melting temperature can mean that candles will melt in hot weather.
Since soy wax is usually used in container candles, this is not much of an issue



APPLICATIONS OF SOYBEAN WAX (SOYWAX):
Adhesives & Sealants: Soy wax can be used in the formulation of eco-friendly adhesives and sealants, providing sustainable bonding solutions.
Candles: Soy wax is a popular choice for candle-making due to its clean-burning properties, renewable source, and eco-friendliness.

Coatings & Paints: Soy wax can be incorporated into coatings and paints, contributing to their sustainability and enhancing their performance.
Packaging: In the packaging industry, soy wax may be used in eco-conscious packaging materials and coatings.
Cosmetics & Care: Soy wax can find applications in cosmetics and personal care products, adding natural and eco-friendly properties.
Tire & Rubber: In the tire and rubber industry, soy wax may be used in rubber compound formulations to improve processing and performance.

Wax Blenders: Soy wax is employed in the formulation of wax blends for various applications, offering sustainable alternatives.
Cleaning & Household: Soy wax can be used in eco-friendly cleaning products and household items, providing a natural and renewable ingredient.

Agriculture: Soy wax may find agricultural applications, such as in crop protection formulations and soil conditioning products, contributing to sustainable agriculture practices.


Natural soy wax is a component obtained from a vegetable derivative, which makes it renewable and sustainable.
Thanks to its consistency, texture and emollient action, it can be used to make various products such as:
• Cream
• Ointment
• Soap
• Ointment
• Lip balm
• Beard wax
• Hair product



HOW IS SOYBEAN WAX (SOYWAX) MADE?
Soybean Wax (Soywax) is a plant-based wax derived from soybeans.
After gathering, the soybeans are washed, split, de-hulled, and made into flakes.
The oil is then removed and processed from the grains.

Most unsaturated fats in the oil are converted to saturate during the hydrogenation stage.
This procedure drastically lowers the oil's melting range, causing it to solidify at ambient temperature.
Agricultural products are typically made from discarded bean shells.
Since this wax is made from soy protein, Soybean Wax (Soywax) may also include non-soy components.
Extraction or industrial crushing are used to extract the oil from the solid structure of soybeans.
This unprocessed oil will be processed and cleaned.

To make 10 kg of soy, 60 kilograms of beans are needed.
Once the oil has been extracted, the soy grains are utilised for cattle feed.
Soybean oil is modified to render it even more rigid (to generate wax).


HOW IS SOYBEAN WAX (SOYWAX) PREPARED?
Soy wax is made by converting soybean oil into a product using a complicated procedure known as hydrogenation.
This is a technical term for the process by which scientists convert a fluid fat into a hard wax.
This description involves some freedoms, but the most significant aspect of hydrogenation originates from bean oil.


WHY WE USE SOYBEAN WAX (SOYWAX):
The Natural, Vegan-Friendly Choice for Candles and Wax Melts:
If you’re looking for a clean, natural, and sustainable option for your candle and wax melt needs, soya wax is the way to go.
Made from 100% natural soybean plants, soya wax is vegan-friendly, toxin-free, and biodegradable.
In this post, we’ll explore why it is the perfect choice for conscious consumers who want to enjoy the warm glow and heavenly scents of candles and wax melts without harming the environment or their health.

100% Natural and Vegan:
Soybean wax derives from fast-growing soybean plants that are easy to cultivate in many regions, unlike traditional paraffin, which manufacturers produce from crude oil, coal, or oil shale.
This makes soy wax a renewable and sustainable option for conscientious consumers.
Moreover, soy wax is 100% vegan and not tested on animals, making it a cruelty-free and ethical choice for those who care about animal welfare.

Clean Combustion:
One of the most significant advantages of soy wax is its clean combustion.
Soy does not release any harmful substances into the atmosphere, unlike non-renewable paraffin wax, which may contain harmful carcinogens that can affect our health.
Soybean Wax (Soywax) is also less allergenic than paraffin wax, making it a much safer option for people with respiratory issues or allergies.

Friendly to the Environment and the Planet:
Soybean Wax (Soywax) is vegan-friendly, toxin-free, biodegradable, and water-soluble.
Soybean Wax (Soywax) is eco-friendlier than paraffin wax.
Soybean Wax (Soywax) is derived from plant-based sources, which means it has a lower carbon footprint and is less harmful to the environment.

Additionally, Soybean Wax (Soywax) has a lower melting point than paraffin wax.
This feature allows for cooler and longer burning, resulting in a prolonged candle life.


OTHER INGREDIENTS OF SOYBEAN WAX (SOYWAX):
The hydrogenation process of soybeans alone produces paraffin with a low melting stage and a squishy feel.
This sort of 100 per cent soy wax is good for box candles but not tower soy wax candles.
To make quality wax for candle holders, more materials like wax or acids must be included.

Most soy wax candle retailers refer to their tower hot wax as "blended wax," rather than "soy wax."
Soy candles frequently contain fragrances and pigments.
Commonly flavoured soy waxes can include up to ten per cent aroma oil, which is easily mixable with luxury soy candle wax.
In fragrant soy wax, pigments are frequently used, such as green dye in apple-flavoured wax or violet dye in blueberry-flavoured wax.



PERFORMANCE OF SOYBEAN WAX (SOYWAX)
Despite its higher density, soy wax is often lighter than paraffin.
Soy wax candles have a thicker structure, making it harder for filaments to disperse the fragrance without becoming too huge.
This results in poor scent production.

When all other factors are held constant, soy wax has a lower hot throw than paraffin.
Soy wax candles have a good cold throw, which is one of its advantages.
Mostly soy is challenging to colour since the colours are frequently muted, and blemishes like icing ruin an otherwise strong image.


CHEMISTRY OF SOYBEAN WAX (SOYWAX):
Soy's typical melting point is around 124 degrees Fahrenheit.
For instance, paraffin has a melting range of 131 degrees Fahrenheit.

Soy is preferable for vessels because of its lower melting points, but it is not as robust or solid for programs that demand heat resilience.
Considering some common business practices, it's best to warm the waxes up to 185°F before any of the processes with them.

BENEFITS OF SOYBEAN WAX (SOYWAX):
The best thing about soy is that it is fully recyclable.
Although world oil stocks are depleting and paraffin costs are increasing, the sole constraint to soy production is just the maximum we can cultivate.
Soy which users currently purchase, is mostly planted just under a year ago.
And there's a good chance that the very same region is producing more soy for subsequent candles.

An adequately produced soy wax candle will flame neatly and gradually, often to the consumers' pleasure, offering an addition to being environmentally friendly.
Although soy candles' efficiency and elegance testify for themselves, scented soy candle is an advertiser's ideal.
Anyone can promote soy candles as environmentally, recyclable, ecological, and carbon-neutral.

KEY INGREDIENT SOYBEAN WAX (SOYWAX):
Soybean Wax (Soywax) is a partially-hydrogenated form of soybean vegetable oil.
Soy's greatest advantage is that it is completely renewable.
While the global reserves of crude oil shrink and paraffin prices increase, the only limit to the soy supply is how much of this crop we choose to grow.
In addition to sustainability, a well-made soy candle will burn very clean and slow.


Because Soybean Wax (Soywax) burns so cleanly, when burned in normal conditions you will not experience the awful black soot around the edge of your container.
However, as with everything else there are Exceptions.
For instance, if your home is drafty, the flame itself may scorch the inside of the container if it flickers too much.


Soy wax also releases our fragrance oils better and keeps it longer than paraffin candles.
This is because being a natural vegetable wax; it absorbs the essential oils completely, giving you a wonderful scent right down to the last drop.
Paraffin wax requires chemicals to be added to it in order for it to release its fragrance.

These chemicals are also emitted into your home when it's burning.
In fact, some of the cheaper scented paraffin candles are only dipped in fragrance coating the outside.
Smells great in the shop, but only lasts a few hours at home.
We blend our natural fragrance oils at the pouring stage ensuring a fragrant home till the candles are gone.



SOYBEAN WAX (SOYWAX) HISTORY:
Invention of soy wax:
Soybean Wax (Soywax) is quite a recent invention.
Soybean Wax (Soywax) was only in 1991, when Michael Richards, when looking for a cheaper alternative for beeswax, that he developed soy wax.
There was a big demand for natural wax candles, but beeswax was about 10 times more expensive than paraffin.

As he entered the candle industry with beeswax products he realized there was a growing demand for natural wax candles.
Micheal Richard tested different natural plant waxes and finally ended up with a vegetable wax which was made with partially hydrogenated soy oil, coconut oil and palm oil.
He also blended beeswax with soy wax to make an economical natural wax candle.


COMMERCIALISATION OF SOYBEAN WAX (SOYWAX):
In 1995, the Body Shop, a national chain of stores, was the first to offer soy candles to the general public.
The first natural wax candles which were delivered to the Body Shop were a mixture of beeswax and almond oil.
Later this almond oil was completely replaced with soy wax.

In 1996 Michael succeeded in replacing the expensive beeswax with soy wax.
The candle wax then mainly consisted of hydrogenated soybean oil.
He developed different mixtures of soy wax for container candles and free standing candles, which needed a higher melting point.

The soy wax producer Candleworks negotiated in 1997 a research project with the University of Iowa which resulted in the study: "Increasing the Use of Soybeans in the Manufacturing of Candles".

In 1998 The Indiana Soybean Board unveiled at the Farm Progress Show special patented soy wax, Harvest Lights, which was developed by a farmer-funded group.



USAGE RECOMMENDATIONS FOR SOYBEAN WAX (SOYWAX):
Candle Fragrances:
This vegetable soy wax can be used with any type of fragrance oil, but we recommend choosing a quality oil designed for this purpose.
A low-end fragrance or one not intended for this use could alter the candle's burning and not provide an optimal scent.

If you use our candle fragrances, do not exceed 7% to 10% fragrance depending on the chosen reference, as this is unnecessary and could also disrupt burning.
For optimal scent diffusion, the fragrance should be incorporated into the wax between 75 and 80°C (167-176°F) during the cooling phase.

Candle Filling:
Melt the wax gently in a bain-marie and do not exceed 90°C (194°F).
The melting point is around 51°C (124°F).
Fill your containers with the fragranced oil at a minimum of 75°C (167°F) to ensure a perfect candle.

Candle Wicks:
With soy wax, we recommend TCR type wicks for candles, chosen according to the diameter of your container.

Candle Dyes:
You will find a range of dyes in our store to give your candle beautiful sparkling colors.
They come in powder, liquid, or flake form.
Add it during the heating phase of your candle, at least 70°C (158°F), and mix well to ensure the color is evenly distributed.
If you are also adding fragrance oil, include it at the end of this step.

Candle Cooling:
Once the candle is poured, let it cool to room temperature, and rest for 48 hours before use.
This will ensure a perfect hold of the candle!

Soy Wax Wholesaler for Candles:
We can offer a supplier deal for soy waxes for candles.
Soybean Wax (Soywax) is eligible for wholesale from 450kg per reference and per order.

Simply select the "large volume: request a quote" option at the top right of the product sheet.

By selecting this option next to the weight variations, we will receive your quote by email and can contact you as soon as possible to offer a tailored deal.



THE BENEFITS OF SOY WAX FOR CONTAINER CANDLES:
Soybean Wax (Soywax) is 100% plant-based, vegan, and not tested on animals
Soy wax has a low melting point of (42-48°C / 107.6-118.4°F).
It is easier to handle than other waxes that require longer heating.

Filling only requires one pour.
Soybean Wax (Soywax) has Excellent adherence to glass, optimal aesthetic appearance (color, shine, adherence).
No alteration of the candle's scent by a wax melting point that's too high.

Being odorless, Soybean Wax (Soywax) will not alter the fragrances of your creations.
Soybean Wax (Soywax) will melt completely, leaving no residue on the container.
Container cleaning is easily done with hot water and soap.

In conclusion, Soybean Wax (Soywax) for container candles is an environmentally friendly, health-conscious, and home-friendly solution.
Soybean Wax (Soywax) is easy to handle, preserves fragrances, and showcases a smooth, flawless aesthetic.


Soybean Wax (Soywax) is non-toxic and cleaner-burning being made with no toxins, carcinogens, or pollutants which means our candles are less likely to trigger allergies.
As a vegetable-based wax, Soybean Wax (Soywax) does not give off any harmful byproducts or produce black soot that can stain walls and curtains like the other leading waxes.

Soybean Wax (Soywax) has a lower melting point than paraffin wax and because of this, soy candles will burn slower and longer than paraffin candles.
Oils evaporate better from a larger surface area and with the lower heat and larger melt pool soy wax creates a scent that will be that much stronger and more pleasant.

Soybean Wax (Soywax) is easier to clean because it is biodegradable.
Soybean Wax (Soywax) can be easily cleaned up with soap and water.

Soybean Wax (Soywax) is Natural, Renewable and Vegan derived from the soybean.
Soybean Wax (Soywax) is a hydrogenated vegetable oil that turns into a solid at room temperature.
You can even make your own soy wax from soybeans at home

TYPES OF USES FOR SOY WAX IN CONTAINERS:
As its name suggests, Soybean Wax (Soywax) for container candles is ideal for making candles in jars, boxes, or glasses.
Soybean Wax (Soywax) has excellent adherence, a beautiful solid color, and a smooth finish that naturally makes it suitable for unscented containers.



HOW IS SOYBEAN WAX (SOYWAX) USED?:
Soybean Wax (Soywax) is used by candle makers in a number of ways.
Soybean Wax (Soywax) can be used straight as in Golden Brands 415 soy wax, blended with other natural oils like Golden Brands 464 soy wax or EcoSoya CB-Advanced, or mixed with paraffin to form a parasoy wax like IGI 6006.


BENEFITS OF SOYBEAN WAX (SOYWAX):
Soy's greatest advantage is that it is completely renewable.
While the global reserves of oil shrink and paraffin prices increase, the only limit to the soy supply is how much we choose to grow.
The soy that you buy from CandleScience today was likely in the ground less than a year ago.

And chances are that same field is growing more soy for the candles to be made in the future.
In addition to sustainability, a well-made soy candle will burn cleanly and slowly, much to the delight of your customers.
While the performance and beauty of soy candles speak for themselves, soy wax is truly a marketer's dream.

If you are making soy candles, you can market them as eco-friendly, renewable, American grown, sustainable, carbon-neutral; the list goes on and on.
Examples of application :
– cosmetics: cream, balm, etc.
– ingredient of choice for making cast candles and massage candles: Soy wax is generally softer than mineral wax and has a lower melting temperature, however if using additives or mixtures within the wax can increase the melting point and make the texture harder.

Soybean Wax (Soywax) will give you white candles which can be easily coloured.
Soybean Wax (Soywax) creates a smooth and shiny surface, good adhesion to container, and a hard but creamy texture.
With Soybean Wax (Soywax) there is no shrinkage, no crystallization on cooling and no foul odour when burning or extinguishing.





PROPERTIES OF SOYBEAN WAX (SOYWAX):
– Film forming
– Emollient, nourishing and protective for the skin
– Increases the stability of emulsions and improves the consistency of the final product
– Soft, creamy and non-sticky feel



CHEMICAL AND PHYSICAL PROPERTIES OF SOYBEAN WAX (SOYWAX):
Creative use(s) Cosmetic / Massage candles / Poured candles in containers / Scented melts/pebbles / Scented suspension / Soap
Packaging Flakes
Type of wax Plant-based / Soy
Colour of the wax Ivory.
Origin USA
Compatible wick ECO Series / Flat wick / new / new / Woods wick
Weight 5kg / 22 / 6kg / 90 / 7kg
Melting point 51°C - 123°F
Working temperature 75°C - 167°F
Available in bulk Yes
Generic CAS number for UFI declaration 68334-28-1



SAFETY INFORMATION ABOUT SOYBEAN WAX (SOYWAX)
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.

Salix Alba Extract; salix alba l. bark extract; extract of the bark of the white willow, salix alba l., salicaceae; tricosolfan ; white willow bark extract cas no:84082-82-6

SP-154 Resin is a heat reactive phenolic resin that was developed for the formulation of solvent-borne polychloroprene cements.


CAS Number: 9003-35-4
Formula: (C6H6O.CH2O)x


SP-154 Resin is a heat-reactive phenolic resin that was specifically developed to prevent phasing in solvent-borne polychloroprene contact cements
SP-154 Resin provides high heat resistance, high cohesive strength, shorter open time, and light color.
SP-154 Resin possesses superior phase resistance.


SP-154 Resin is synthetic polymers obtained by the reaction of phenol or substituted phenol with formaldehyde.
SP-154 Resinis a modified heat-reactive alkylphenol resin and is supplied in flake form that was developed especially for formulating solvent-borne polychloroprene contact cements that do not phase.


SP-154 Resin is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 10 to < 100 tonnes per annum.
SP-154 Resin is a heat reactive phenolic resin that was developed for the formulation of solvent-borne polychloroprene cements that do not phase.


SP-154 Resin provides high heat resistance, high cohesive strength, shorter open time, and light color.
SP-154 Resin reacts with an active magnesium oxide, such as ELASTOMAG 170, in solvent solution, forming a salt which greatly increases the heat resistance of the adhesive.


SP-154 Resin can also be used in formulating adhesives with NBR, SBR, natural and reclaimed rubbers.
SP-154 Resin is completely compatible with NBR and CR.
SP-154 Resin can react with an active magnesium oxide in solvent solution, forming a salt which greatly increases the heat resistance of the adhesive.


Adhesives made using SP-154 Resin have excellent heat resistance, high cohesive strength, and light color.
SP-154 Resin is oil soluble, heat reactive phenolic resin.
SP-154 Resin is used in neoprene solvent type contact cements.


In polychloroprene adhesives, SP-154 Resin increases heat resistance and cohesive strength of the adhesive film.
SP-154 Resin is synthetic polymers obtained by the reaction of phenol or substituted phenol with formaldehyde.
SP-154 Resin has strong adhesion, good chemical stability, high heat resistance, shrinkage when hardening, and stable product size.
SP-154 is a heat reactive phenolic resin that was developed for the formulation of solvent-borne polychloroprene cements.



USES and APPLICATIONS of SP-154 RESIN:
SP-154 Resin is a heat reactive phenolic resin-based tackifier, that was developed for the formulation of solvent-borne polychloroprene cement.
The average shelf life of SP-154 Resin is about 1 month at 21.1°C.
This can be extended by storing it in a refrigerator at 1.6 to 10°C.
Varying the catalyst(according to the thickness of the cast) and raising the cure temperature to 93°C will alter the cure time from as long as 8 h to as short as 15 min.


Some shrinkage occurs in the finished casting (0.012 to 0.6 mm/mm), depending on the quantity of filler, amount of catalyst, and the rate of cure.
The base material choice depends on the intended application of the finished product.
Paper phenolics are used in manufacturing electrical components such as punch-through boards, in household laminates, and in paper composite panels.


Glass phenolics are particularly well suited for use in the high speed bearing market.
Phenolic micro-balloons are used for density control.
The binding agent in normal (organic) brake pads, brake shoes, and clutch discs is SP-154 Resin.


Synthetic resin-bonded paper, made from SP-154 Resin and paper, is used to make countertops.
Another use of SP-154 Resin is the making of duroplast, famously used in Trabant automobiles.
Atmospheric re-entry spacecraft use SP-154 Resin as a key component in ablative heat shields (e.g. AVCOAT on the Apollo modules).


As the heat shield skin temperature can reach 1000-2000 °C, SP-154 Resin pyrolizes due to aerodynamic heating.
This reaction absorbs significant thermal energy, insulating the deeper layers of the heat shield.
The outgassing of pyrolisis reaction products and the removal of charred material by friction (ablation) also contribute to vehicle insulation, by mechanically carrying away the heat absorbed in those materials.


SP-154 Resin is used in general purpose and heat-activating contact cement.
SP-154 Resin is used for low-cost parts requiring good electrical insulating properties, heat resistance, or chemical resistance.
Faster cure cycles produce a higher rate of shrinkage.


Since the cure cycle can be accelerated, phenolics are used in short-run casting operations.
Cast phenolic parts are easily removed from the mold if the parting agents recommended by the supplier are used.
SP-154 Resin's molecular weight varies from a very low value during its early state of formation to almost infinity in its final state of cure.


SP-154 Resin was at one time the primary material used for the production of circuit boards but have been largely replaced with epoxy resins and fiberglass cloth, as with fire-resistant FR-4 circuit board materials.
SP-154 Resin is used as a binder in loudspeaker driver suspension components which are made of cloth.


Higher-end billiard balls are made from SP-154 Resin, as opposed to the polyesters used in less expensive sets.
Sometimes people select fiber-reinforced SP-154 Resin parts because their coefficient of thermal expansion closely matches that of the aluminium used for other parts of a system, as in early computer systems and Duramold.


SP-154 Resin is found in myriad industrial products.
Phenolic laminates are made by impregnating one or more layers of a base material such as paper, fiberglass, or cotton with phenolic resin and laminating the resin-saturated base material under heat and pressure.


SP-154 Resin fully polymerizes (cures) during this process forming the thermoset polymer matrix.
All these characteristics are coupled with relatively low cost.
SP-154 Resin is used by consumers, in articles, by professional workers (widespread uses) and at industrial sites.


SP-154 Resin is used in the following products: adhesives and sealants and coating products.
Other release to the environment of SP-154 Resin is likely to occur from: outdoor use as reactive substance.
SP-154 Resin offers high heat resistance, cohesive strength, shorter time and light color.


SP-154 Resin is used for the manufacture of: metals, fabricated metal products, electrical, electronic and optical equipment and machinery and vehicles.
Other release to the environment of SP-154 Resin is likely to occur from: indoor use.
SP-154 Resin is used in the following products: fillers, putties, plasters, modelling clay, adhesives and sealants and polymers.


SP-154 Resin is used in the following areas: scientific research and development and building & construction work.
SP-154 Resin is used for the manufacture of: metals, fabricated metal products, electrical, electronic and optical equipment, machinery and vehicles and wood and wood products.


The correct SP-154 Resin is designed for very fast wetting.
After cross-linking, SP-154 Resin can provide the required mechanical strength, heat resistance and electrical properties for abrasive tools, refractory materials, friction materials and bakelite powder.


Water-soluble SP-154 Resin or alcohol-soluble phenolic resins are used to impregnate paper, cotton, glass, asbestos and the like to provide them with mechanical strength, electrical properties and the like.
Typical examples include electrical and mechanical laminate manufacturing, clutch plates and filter paper for automotive filters.


SP-154 Resin is used in binders, adhesives, laminates, impregnation products, surface coatings, casting sand, etc.
SP-154 Resin is also used for making exterior plywood commonly known as weather and boil proof (WBP) plywood because phenolic resins have no melting point but only a decomposing point in the temperature zone of 220 °C (428 °F) and above.


SP-154 Resin shows compatibility with nitrile- and chloroprene rubber.
The chemical configuration of SP-154 Resin, in the thermoset state, is usually represented by a three dimensional network in which the phenolic nuclei are linked by methylene groups.


The completely cross-linked network requires three methylene groups to two phenolic groups.
A lesser degree of cross-linking is attainable either by varying the proportions of the ingredients or by blocking some of the reactive positions of the phenolic nucleus by other groups, such as methyl, butyl, etc.


SP-154 Resin is used as the basis for Bakelite, PFs were the first commercial synthetic resins (plastics).
SP-154 Resin has been widely used for the production of molded products including billiard balls, laboratory countertops, and as coatings and adhesives.
Posteuring improves the basic properties of the finished casting.


SP-154 Resin is a synthetic resin, commonly known as phenolic, made by the reaction of phenol and formaldehyde, and employed as a molding material for the making of mechanical and electrical parts.
SP-154 Resin is also used for laminating, coatings, and casting resins.


SP-154 Resin is used most extensively as thermosetting plastic material, as there are only a few uses as thermoplastics.
SP-154 Resin is composed of carbon, hydrogen, oxygen, and sometimes nitrogen.
SP-154 Resin is a phenolic resin that reacts to heat.


Contact adhesives of the non-phasing polychloroprene solvent variety use it.
Release to the environment of SP-154 Resin can occur from industrial use: in the production of articles, as processing aid and as an intermediate step in further manufacturing of another substance (use of intermediates).


SP-154 Resin has been widely used for the production of molded products including billiard balls, laboratory countertops, and as coatings and adhesives.
SP-154 Resin was at one time the primary material used for the production of circuit boards but have been largely replaced with epoxy resins and fiberglass cloth, as with fire-resistant FR-4 circuit board materials.


SP-154 Resin is widely used in diamond products, grinding wheel and other industries.
Used as the basis for Bakelite, SP-154 Resin was the first commercial synthetic resins (plastics).
High cohesive strength, light color, and high heat resistance are all features of SP-154 Resin.


The outstanding characteristics of phenolics are good electrical properties, very rigid set, good tensile strength, excellent heat resistance, good rigidity at elevated temperature, good aging properties; also, good resistance to water, organic solvents, weak bases, and weak acids.
Other release to the environment of SP-154 Resin is likely to occur from: outdoor use in long-life materials with low release rate (e.g. metal, wooden and plastic construction and building materials).


SP-154 Resin can be found in products with material based on: rubber (e.g. tyres, shoes, toys), metal (e.g. cutlery, pots, toys, jewellery) and wood (e.g. floors, furniture, toys).
SP-154 Resin is used in the following products: fillers, putties, plasters, modelling clay.
SP-154 Resin is used in the following areas: scientific research and development.


SP-154 Resin is used Adhesives, and Furniture.
Reactivity can be enhanced by increasing the hydroxyl groups on the phenolic nuclei, for example, by the use of resorcinol.
SP-154 Resin has strong adhesion, good chemical stability, high heat resistance, shrinkage when hardening, and stable product size.


SP-154 Resin is used as laminating plastics, plastic pressing powder, glass fiber reinforced plastics and adhesives for gluing industry and coating industry.
SP-154 Resin is multifunctional and compatible with a wide variety of organic and inorganic fillers.


SP-154 Resin has good acid resistance, mechanical properties and heat resistance, and is widely used in anti-corrosion engineering, adhesives, flame retardant materials, grinding wheel manufacturing and other industries.
An important application of SP-154 Resin is as a binder.



CHEMICAL PROPERTIES OF SP-154 RESIN:
SP-154 Resin is most widely used low molecular weight butylated resols, which contain phenolic hydroxyl groups and etherified and unetherified methylol groups.
SP-154 Resin used to have a molecular weight of 3000-4000 and therefore contain secondary hydroxyl groups.



FEATURES AND BENEFITS OF SP-154 RESIN:
Features & Benefits
*Excellent heat resistance
*High cohesive strength
*Light color
*Increases heat resistance and cohesive strength of the adhesive film in polychloroprene adhesives



PREPARATION OF SP-154 RESIN:
Phenol-formaldehyde resin, SP-154 Resin, is prepared as follows:
C6H5OH+H2C=O ---> [-C6H2(OH)CH2-]n
One-Stage Resins:
The ratio of formaldehyde to phenol is high enough to allow the thermosetting process to take place without the addition of other sources of cross-links.
Two-Stage Resins:
The ratio of formaldehyde to phenol is low enough to prevent the thermosetting reaction from occurring during manufacture of the resin.
At this point the resin is termed novolac resin.
Subsequently, hexamethylenetetramine is incorporated into the material to act as a source of chemical cross-links during the molding operation (and conversion to the thermoset or cured state).



PRODUCTION OF SP-154 RESIN:
There are two main production methods.
One reacts phenol and formaldehyde directly to produce a thermosetting network polymer, while the other restricts the formaldehyde to produce a prepolymer known as novolac which can be moulded and then cured with the addition of more formaldehyde and heat.
There are many variations in both production and input materials that are used to produce a wide variety of resins for special purposes.



PHYSICAL and CHEMICAL PROPERTIES of SP-154 RESIN:
Melting point : 94 °C
Boiling point: 229.3℃[at 101 325 Pa]
density: 1.10 g/cm3
vapor pressure: 3.18Pa at 25℃
storage temp.: Sealed in dry,Room Temperature
Water Solubility: 1.557mg/L at 25℃
Stability: Stable.
Incompatible with strong oxidizing agents.
LogP: 3.564 at 25℃



FIRST AID MEASURES of SP-154 RESIN:
-Description of first-aid measures:
*General advice:
Show this material safety data sheet to the doctor in attendance.
*If inhaled:
After inhalation:
Fresh air.
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.
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 SP-154 RESIN:
-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 SP-154 RESIN:
-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 SP-154 RESIN:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses
*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
*Respiratory protection:
Recommended Filter type: Filter type P2
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of SP-154 RESIN:
-Precautions for safe handling:
*Advice on safe handling:
Work under hood.
*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.
Dry.
Keep in a well-ventilated place.
Keep locked up or in an area accessible only to qualified or authorized persons.



STABILITY and REACTIVITY of SP-154 RESIN:
-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:
Paraformaldehyde,formaldehyde,phenol polymer
Paraformaldehyde, phenol polymer
P-F-R-2
Formaldehyde,phenol polymer
Novolac
Phenol formaldehyde
Phenol,formaldehyde polymer
Phenol formaldehyde resin
Phenol Formaldehyde Resin,Novolac
Phenol Formaldehyde Resin,Resol
Phenol, polymer with formaldehyde
Resole
Phenol-formaldehyde resin
phenol,polymerwithformaldehyde
phenol-formaldehyde
Phenolic resin,dimethylbenzene modified
Phenolic moulding plastics PF2A2-131
Phenolic granular injection moulding plastic SP2501J
Phenolic resin,melamine modified
Phenolic resin 264
Phenolic resin,thermoset
Formaldehyde, polymer with phenol
Phenol, polymer with formaldehyde
Kerite (polymer)
Renoterm 67
Phenol-formaldehyde resin
Phenol-formaldehyde polymer
Phenol-formaldehyde condensate
BRLY 1215
Ironsides 1111
Formaldehyde-phenol resin
Resinox 773
ATM 2
Corephenit HB
Corephenit
FL 1 (phenolic resin)
FO 80
Formaldehyde-phenol polymer
Rousselot 75.00
FKP
FFR
Alpit
Phenodur PR 897
Novolak 18
ATM 1
AW 1
BRL 2741
BRPA 5570
BRR 5555
BSL (phenolic resin)
Cellobond J 1010
CTL 91LD
Durez 12686
Durez 12687
F 50 (phenolic resin)
FRP 1A
I 21-22
K 15-2
K 21-22
MILR 9299-II
Modofen 53
Modofen 56
P 3-1
P 5-2
Phenodur PR 141
Resol 300
RFN 60
RI 4009
SBS 1
SNK 2-27
Tegofilm M 12B
TsNIIF
Varcum 2406
VFT
VIAM-B 3
Voloknit VL 2
Pololit E
MDPV
VRB
Resopen
Corephenit HBZ
FK 20
KDFF
Kaproplast KSG
SBS 11
FFB
Foundrez 23-703
Rezocol
Kreodur
Retinax FK 16L
FRV 1
ZhN
FRV 4
DN
R 300
Albertol 626L
VW 65059
Bakelite 207
Bakelite 222
Tegocoll DO 1
ZkN
K 18-2
LBS 3
RA 51
N 1320
K 4
NS (resin)
TS (resin)
K 18
Bakelite BRL 2760
18U
DPK
CR 9357
Noburit HH
Phenodur PR 722
Novogen P 40
Kauresin 250
FK 24A
6KKh1B
Vulkadur A
Novolak 18u
R 10993
Heresite
AG 4B
AG 4C
PM 932
M 0
RP 902
SBS (phenolic resin)
Alnovol 844K
K 17-2
VIAM-B
Iditol (polymer)
ZhB
F 110
Cellobond J 1990/60
2P1000
Caproplast
Kaproplast
Duroplast 9001
Cascophen W 166
W 166F
SFK 2
SF 339
PF 541
PF 544
Amres 5581
Kaproplast KS
MP 120 (phenolic resin)
K 4 (phenolic resin)
Phenodur PR 101
R 2 (phenolic resin)
BLS
BKS 2600
FRP 5
Rezopen
SF 010
Rezokol
SP 8855
Bakelite 1003
Varcum 5485
Bakelite BRL 1100
Durez 7421A
Plyophen 5010
TS
S 1
ATM 2 (phenolic resin)
FO 64
OF 1
AG 4V (phenolic resin)
BSL
M 1
SBS
FL 1
R 2
Porofen FSzG 2
FK 161
Porofen FF 1
Porofen F 1-36
UBF
Cerac 303
Cerac 312
LBS 1
101M
KAST-V
Cellobond J 1006W
Retinaks FK 24a
STEF
K 18 (polymer)
Vilares 5
FP-B
AF 3T
Bakelite 433
Textolite KAST-V
NS
BZh 3
SPLBS 1
SP 18 (polymer)
LARS 5
CP 152C
Bakelite 3087
K 18-2FG
LBS 9
Kerite
VGS 18
Metallogen AT 3
Aerophene 0808
BRPE 4035
FPF 1F
Alnovol PN 429
BZh 1 (phenolic resin)
SBS 1 (phenolic resin)
Iditol Extra
HP 203N
HP 607N
1000WS
Dorolac IX
Bornum 6101
SF 015
SF 241
SF 015M
BRZ 7541
PB 2V
LATOS 31
AG 4S
Fenopreg
LT
Bakelite BRRE 5833
Bakelite BRZ 7541
DSV 4R2M
FNSL
NSB 153
NTK 246
NOB 246
NSB 146
Phenodur PR 281
DSV 4-2R2M
Durez 14000
DS 9-2816
Bakelite R 10993
K 124P50
Koroset
E 14
IMC Self-Set 130
Chem-Rez 480
Chem-Set 700P
FRV 1A
K 124-38
Resin LARS
LARS
Si 14E
FRA
SF 3024B
S 1 (phenolic resin)
LAF 1
P 42
Chembond Cerac 312
SFZh 3016
SF 010A
Bakelite TP
AG 4W
Resinox 753
FL 03K
Sumilit PR 9300
Porofen S
Formalin-phenol copolymer
AST 2A
Vx 2-090-68
Vx 4-080-34
Fenoform 31-14P
Fenoform 12P
Fenoform 1H/P
FFS 01
T 77 (phenolic resin)
Arzamit 5
Plyophen TD 2307
Plyophen J 303
E 12
SF 50
VP 13N
Resophene 71DAS
RSF
LT (polymer)
E 12 (phenolic resin)
Sirfen 1025
Sirfen 1027
Oktofor O
FRV
Durez 12763
RCI 25-114
LBS
Umaform LV 1
SF 260
BZh 8
Bakelite R 19595
GSP 32
Fenolit 43
Poltec 2
F 5243
Fenokol
Umaform B 115
F 20
F 5250
F 5215
Umaform B 116
Umaform LE
Umaform TVD
BLS 2700
FRP (polymer)
FRP
VP 24N
U-Loid PL 250
SF 011
P 42 (phenolic resin)
ATM 1T
Sirfen N 3
FFS-K 124
SFZh 309
SFKh
Methylon 11
BZh 4
SFP 012A
RSF 3043
MP 120HH
SFZh 3012
MP 120H
TSKGS 75-90
SF 480
F 50
Bakelite CKR 2400
Bakelite 2432
Phenodur PR 121
Phenodur PR 373
Phenodur PR 285
SFZh 3014
MNG-FF
TR 18176
Plyophen TD 2302
F 5238
WR 40AS
Alnovol PN 430
GSP 400
WR 40
F 47
W 31-46B
W 31-54B
W 31-131C
RSF 3040
Bakelite R 5468/1
Bakelite R 10840
MR 800N
LBS 4
LBS 20
FP-RN 7
E 2-330-02
F 6-337-67
VKh 1-090-34
U 2-301-07
U 1-307-07
SP 342-02
O 3-010-02
Zh 2-010-60
E 1-340-02
RN 7 (phenolic resin)
SF 0112
Arofene 700
Uranol L 9
Colloid 8440
Varcum 24-655
Varcum 29703
Plenco 402
OFPR-II
OFPR 2
SF 3024B20
Basyntan M
SF 100
SF 0116F
SF 0112A
Bakelite 882712
Peracit 5044
Peracit 5061
Bakelite 881712
Peracit 5048
Bakelite 221834
Bakelite SP 222-25/40
Peracit 5046
Peracit 5042
Bakelite SP 222-18/26
80FV
Bakelite SP 222-14/17
J 1011H
J 1008H
Bakelite 887912
Resinox 7280
ATM 10
Haveg H 41N
AG
Hitanol 4020
Umacol B
AG (phenolic resin)
SFZh 3037
Phenodur VPW 9340
Mitsui Toatsu 2000
K 6
KHD III
SLK 621
Rezotsel
K 6 (polymer)
Rezocel
PL 3812D
SF 0119
AV Lite 450M
SFZh 3032
SFZh 3013
SFKh 3013
SFZh 3024
Gumifen 11
SF 3021
FFO 1
FFO 2
Koroset A
Fiberite MXG 6070
MPC-S
MPC-R
SF 262
Plastasol L 47N
Resinox 594
Bakelite BLS 2700
GP 5137
Cascophen PC 100
Varcum 22-655
SPF 012
Uravar 75778
BRL 2760
SF 121
SF 104
80FU
MY 106
Zh 5-010-78
S 1-25
BV 01
FL 2 (phenolic resin)
FL 2
SFP 011
550PL
PS 2178
Haveg AF
Phenorez PB 71DA
WR-AS
Sumilit PC 1
MS 7814
PN 80
Fenokol 43
FX 101
Umaform 116
F 5245
Plastatherm 2355
FFS 79
Resitop PSK 2225
Resitop PSK 4300
Tegocoll DO 2
SFN 2
Delta Kure Resin
ES 31B2
Resitop PSF 4224
Shonol BRG 557
Foundrez 96-880
PSM 2240A
Mitsui Toatsu 3000
Phenolic resins, phenol-formaldehyde copolymers
R 300 (phenolic resin)
FK 74
SFZh
LB 21
LB 2 (binder)
LB 2
BZh 1-4559-71
SFP (polymer)
SFP 011A
SFZh 305
IF
SFP
Paraformaldehyde-phenol copolymer
WR 36AS
IF (polymer)
SP 690
Acme Super Set 970
EG-FF
Resitop PSK 2320
Resinox SD 7280
PR 51470
Bellpearl R 900
Bellpearl S 970
Resitop PL 2211
Uravar L 9
F 20 (phenolic resin)
PN 430
FPF 1M
SF 012
Alnovol PN 320
Novolak 70
Bakelite 92113
Bakelite 92055
Rousselot 7515
FL (phenolic resin)
Bellpearl S 930
Bellpearl R 800
Durez 50000
SF 381 (phenolic resin)
SF 381
Rezine 75-30
Plastasol L 47
Bakelite SW 361
Plenco 650
Shonol BKS 316
Novolak 1000
Sumilit PR 50716
SK 3 (phenolic resin)
SK 3
Resitop RSF 4261
Phenodur PR 217
Resitop PSF 4261
Mitsui Toatsu 1000
Cascophen SP 5520D
Sumilit PR 1050
BRG 557
Phenodur 217
X 34-45DF006
ITD 320Z
FSF 65
ACL 141
PSF 4261
SFP 0119A
Resitop PSK 4261
Sumilit PR 50731
Borofen DX 26
Tungophen B
BZh 2
M 2
U-Loid PL 283
BLS 362
FFK 39
FL 5280
SF 0113
PSF 4224
SF 3021s
Tamanol 745
PS 2176
PS 4113
PSM 2207
PSM 4448
PL 2975
Sumilit PR 10694
Polofen FE 18-1
Polofen F 1
PL 2640
Unilam ABT
Printan G
Novolak 2000
H 41N
GP 553
BRG 556
R 1974
Durez 12704
Resine 75-30
Neoresin PX 310
F 47 (polymer)
U-Loid PL 281
LBS 16
Sumilit PR 50235
SFP 118
FK 75
Hitanol HP 607N
Shonol BRG 556
PN
BRG 555
Shonol BRG 555
PN (phenolic resin)
Fenoterm
Cerac 6010
PR 50731
Bakelite 7716
TD 2254
Plyophen TD 2254
Fenokol A
Cascophen 3128M
K 50 (phenolic resin)
KF 74
PS 2207
K 50
HX 5211PF
H 1S
PF 109
HRJ 652
Finetex PF 20
F 110 (polymer)
Chemplex 775
E 14 (phenolic resin)
GP 3195
NRV 125
Peracit A 177
Selphen OG 2000
Selphen OG 1000
Sumilit Resin PR 50622
Resitop PSM 4228
Sumilit PR 50622
Fenakol 43
RP 912
Suspendol PPK
SF 29
Sintek 2
Resitop PL 2207
TD 2093
Varcum TD 2093
K 266
Tamanol PA
FRV 1 (phenolic resin)
Resitop PSM 6820
Resitop PSM 4261
PN 46
PN 152
Phenol-formalin copolymer
CD 208-34A
CD 208-34B
Fiberite MXB 360
AV Lite
Vulkadur RB
SP 18
GP 2074
Bellpearl S 890
BLS (polymer)
PN 154
BD 909
GP 5415
Fenokol 35
K 641
Fiberite K 641
Formaldehyde-phenol copolymer
Tamanol P 180
Cascophen SP 5300D
TD 2307
M 1 (phenolic resin)
HP 401SD
IB 215
PI 260
F 24
PZR (phenolic resin)
HRJ 2210
RN 7
Tackirol 160
Sumilit PR 51470
SF 341
S 191
SFO 1
R 8821/1
Cellobond J 2015A
Fenolit R 1
SFZh 3061
SFZh 3066
SFZh 339
T 77
P 65 (phenolic resin)
Shonol PCL 681
P 65
GP 2804
SF 29 (phenolic resin)
Novaset 735
PSM 4261
PL 2211
337T28
MPD 8515
Phenolite TD 2254
Cascophen PB 306
Alnovol 320K
Shonol BRG 559
F 24 (phenolic resin)
PR 50716
Phenolite PE 203
Phenolite TD 2090P
Phenolite PE 205
BB 062
Cascophen C 271
BRG 559
Sumilit Resin PR 51470
Rutaphen GC 75
Resorciphen 2074A2026B
Sumilit PR-Q 221
Sumilit PR-Q 121
PF 750
Phenolite TD 2090-60M
RB 125S
Shonol BRN 2120
Epicure DX 200N60
BRN 2120
1940H
Durez 175
Varcum 29219
PR 311
Durez PR311
RSF 014
PR 53120
Resitop PS 2607
KRD-HM 2
Umaform F
Fenokol 40
Fenochem 35
Novokol E 15
HRJ 1166
GP 2037
N 16 (novolak)
FD 14
Cascophen 1701
N 16
Retinax FK 24A
Sumilit Resin PR 50731
Retinaks FK 16L
GP 5833
Resi-Stran
Fiberite CMXR 6055
Oshika Resin D 17
D 17 (polymer)
D 17
Plyophen TD 2093
BZh 1
Phenolite TD 2093
CS 100
FL
CS 100 (phenolic resin)
Isocure LF 305
Plenco 11956
Plenco 21483
R 17620
Tamanol 758
RFL 3
NKTV-A 62
HF 1 (phenolic resin)
HF 1
Alnovol PN 844
Ucar CK 1635
Ucar BKR 2620
SF 141S
PR 100
Phenolite 5010
GP 6777
Ablaphene RA 101
RA 101
OCF-RE 131
SD 1731
Durite SD 1731
Aerofix N
Gascofix NY
Oshika Resin D 100
Casconol PF 1555
Sumilit PR 940
GP 144D64
Borofen DL 702
Borofen BPF 70
Rezofen CS
PF 2-0823
Bakelite LG 724
Novolak LG 724
N 101
N 101 (phenolic resin)
Arofene 72155
LG 724
Neosyn CPP 48
BB 143
Cascophen W 91B
Resitop PL 4708
BRG 85
HRJ 11722
SG 3100
VP 300N
Tembec CL 300
PF 270
PN 320
FRD 5002
Tilen A
Oshika Resin PB 1310
Atanor R 619
Atanor R 435
R 619
R 435
SD 140
PR 50235
Bakelite 8978FL
HRJ 11482
SF 100 (phenolic resin)
BFOS
Araldite K 6
Ucar GP 5200
Kemfix HB 96/200
CB 8081
Sylvic DUO-A 133
HPN-X
Fenolit TL 706
Fenolit TL 706/3
Umaform MVU
Umaform B 118
Ebolit FF
Sumiresin PR 50235
RL 628
GP 5479
HRJ 12700
Phenolbil
K 48
UKF
Cascophen PR 511
K 48 (phenolic resin)
UBF (phenolic resin)
Sumilit HPN-X
LBS 3 (polymer)
LBS 1 (polymer)
Phenolite TD 4304
Interac 1168
T 266
T 214
T 110
T 250
O 203
O 122
Hitanol 3013
SF 50 (phenolic resin)
XR 14277A
T 110 (phenolic resin)
T 214 (phenolic resin)
P 963
101M (phenolic resin)
R 8210
HF 3
SFP 470
A 407-901
Cellobond J 1002G
GP 3121
FSJ-III
Peracit 4536K
XR 4364
Acme Flow 2012
SFP 011L
Arrotex 2035
FFB (phenolic resin)
Cascophen OS 707
386ST
GSP 32 (phenolic resin)
Cascophen AL 5309
Durite SD 446A
BPR 572A
BKS 316
Resi-Lam GP 5236
GP 5236
GP 4445
CB 050
PRN 1200
CB 050 (conductive polymer)
SFP 015A
Phenol-formaldehyde copolymer
SFZh 306
SF 14
GIPK 114
FUT
JDW 2
FF 65S
SD 1708
MER 7930
SFZh 3102
Phenoset 5001
Akrochem P 86
Netbond FRB
SVF 3
STF 2
ATF 1
UVF 3
UTF 1
ATF 1 (phenolic resin)
PR 100 (phenolic resin)
BRWE 5555
BRWE 5853
Plenco 12631
LBR 6
PR 940
J 60/2325L
S 205
SF 022
OF 1 (phenolic resin)
SF 14 (polymer)
FPR 520
Cascophen 433-156
AW 1 (binder)
KPE-F 2000
KPH-F 2001
KPH-F 2002
HF 1M
ST 1138
Shonol BRP 572A
Univeks C
GP 5778
Varcum TD 2090P, homopolymer
L 252G
Varcum TD 2090P
P 180
O 250 (polymer)
O 251
O 250
SPF 011L
Bakelite BB 7/138
SFZh 304
JDW 3
JDW 1
KNB 100PL
KPD-L 777
FDP
SFZh 3027
PF 307
PFC 04
SP 2611
TD 2090-60M
PF 329
020-210-75SK
Zh 13-010-89
O 20-210-75SK
E 39-0127-48
SFZh 301
LBS 29
Durez 7716
7510P
SFZh 3027B
Resitop PL 4667
AML Resin AMCR 01
AMCR 01
SF 014
SF 010M
FS 117
SF 3021K
UVS 10T
UVS 350T
IZ 6635
Prefere 13B024
Santolink EB 560
Phenolite J 325
J 325
Plyophen J 325
Dynosol S 175
PF 76
PN 80 (phenolic resin)
SFZh 302
Ekoakoru
Sumilit Resin PR 311
Sumilit PR 311
Bakelite LB-SP
Cellobond 85S
Bakelite 2506HW
Bakelite 1842HW
PF 330
R 330 (phenolic resin)
R 330
Bakelite PF 6520LB
LPF 101K2
HPC 51
W 800C
L 998
Bakelite PF 0790K01
PF 336
Polofen FF 1WHG
F 2450
PHS 600
Shonol BKS 377F
Resitop PL 4646
PG 700
PG 700 (phenolic resin)
Phenolic resin 2123
Sumilit PR 217
PR 217
Bakelite LBS 5
Carbolic acid-formaldehyde copolymer
Resol 472
R 472
Baqphen 4051-3
Phenolic resin 2130
PL 2207
Cascophen BD 4503
Cascophen BD 4507
Cascophen BD 4509
BZh 6
BZh 3A
Sumilit Resin PR 50235
BF 4N
EX 262E
SD 909A
SD 672D
Cascophen W 3154
GP 594G04
GP 548G51
PS 2607
W 3154
FDU 14
Prefere 14J021
FDU 15
Prefere 72-6410M
Prefere 70-7012L
Prefere 70-7530L
PR 281
GP 3110
GP 5102
Durite 1731
SFZ 3013VL
SFZ 3014
Novolak EXP-E 069
Dynea 13D036
SMD 30207
PF 328
Cascophen 1770TO3
TSP-F
MA 15
GP 205C
Dynea 1385C
Dynea 1355F
PF 785
13B122
Polycol N
Amberol T 137
Cascophen OS 703A
Cascophen O 303D
SF 030A
Borofen DX 30
GP 155C42
Phenol-paraformaldehyde copolymer
Rhenosin RB
Sumilit PR 5064
AG 4V
PSK 2320
BF 01
Modofen 54S
Alnovol PN 350
Resital 6358/1
Dynea 13B410
NVG 2000
SFZh 3031
Lignofen 15/2
LV 70S
W 1601
GP-RPPY 5779
GP 5779
Durez 29095
BB 634
Sumilite Resin PR 217
E 97783
Dynea E 97783
Bakelite 1279HW
Bakelite PF 1804PS
SuperEko NFC
HY 2000
WoodWeld GP 190073
WoodWeld GP 145C48
Plenco 11936
PF 8010
Durite SC 830A
Ablaphene RS 101
HW 1842
HRJ 12362
Sumilite PR 217
MP 120
Imprezin 01
SFF 3031
ReziCure 3057
Prefere 4976
Fenokol UA
MXB 360
Phenodur PR 612/80B
Cascophen SLPF 55V2
Sumilite Resin PR 51470
PF 201
Poly[[(phenylmethoxy)phenylene]methylene]
Sumilite Resin PR 50716
Abifen 130D
SFZh 3011
Arofene 8426ME63
Resibond GP 169C21
GP 169C21 Resi-Bond
Corrodur 7839
FL 5111
Durite SD 672D
BCW 2022
GP-RPPY 5757
Borofen B 1606A
Cascophen BCW 2021
Cascophen GD 3-147
Cascophen GD 3-146
Sinotherm 8426
Plenco 14695
PR 285
Muromac WAP 9211
Dynea 4976PF
Askocure 300EP3901
Avecure 330
SFZh 323
CR 4871D
SH 1098
Sumilite Resin PR 940
Cellobond PA 2276
PA 2276
GP 486G34
Resitop LVR 8210
2E4MZ-CN-Phenolic resin 2130 copolymer
Pli-O-Phen J 325
PF 190080
JA 10
HRJ 12952
HN 7310A
Phenolite J 235
PF 162510
FRV-EM
Resi-Bond 6773
Longlife 1120
SPWC 190054PF
TD 4304
Woodweld 190080
Resi-Stran 240C11
SL 2005
Reslink GTC 50
Apinee 80R
FRJ 425
Prefere 16J536
RL 43003
Cascophen P 6619
GPR 5815
Formaldehyde-phenol-2-phenylimidazole copolymer
STN 150
PF 2
Phenalloy 2870
PH 4055
J 871
PF 0235DP
Resin 2162
Resin 2173F
Fenotam GR 326
PF 16L510
PF 2512
Resol A
Novolac Z
Ribetak R 7515P
Cascophen 54774TJ
T 383J
R 330U
GP 240C11 Resi-Stran
GP 190C80 Woodweld
Polifen 47
SFP 012A3
Prefere 72-5648L
Prefere 91-5701Lx
Phenolic resin 2127
Prefere 72-5593M
CR 4510
WE 1029
F 3620-3
RT 1201
KM 220J
Lignofen G 3P
Hexion 13BO33
D 26GPB
Bakelite 8505F
R 7515P
Plenco 12114
Bakelite PF 6510
Bakelite PF 6680
EL 03
Plenco 14845
8020-65M
PF 8020-65M
Curaphen B 60
SL 2201
SFG 3014
Primere 14J
F 908 (phenolic resin)
F 908
NC 58
SF 0121
ST 2025
Elaztobond A 250LP
Resicare 3010
Resicare 3015
Formaldehyde,phenol polymer
Phenol-formaldehyde resin
Paraformaldehyde,formaldehyde,phenol polymer
Phenol,formaldehyde polymer
Phenol,polymer with formaldehyde
Paraformaldehyde,phenol polymer
Phenol,polymer with formaldehyde
Kerite (polymer)
Renoterm 67
Phenol-formaldehyde resin
Phenol-formaldehyde polymer
Phenol-formaldehyde condensate
BRLY 1215
Ironsides 1111
Formaldehyde-phenol resin
Resinox 77
ATM 2
Corephenit HB
Corephenit
FL 1 (phenolic resin)
FO 80
Formaldehyde-phenol polymer
Rousselot 75.00
FKP
FFR
Alpit
Phenodur PR 89
Novolak 18
ATM 1
AW 1
BRL 2741
BRPA 5570
BRR 5555
BSL (phenolic resin)
Cellobond J 1010
CTL 91LD
Durez 12686
Durez 12687
F 50 (phenolic resin)
FRP 1A
I 21-22
K 15-2
K 21-22
MILR 9299-I
Modofen 53
Modofen 56
P 3-1
P 5-2
Phenodur PR 141
Resol 300
RFN 60
RI 4009
SBS 1
SNK 2-27
Tegofilm M 12B
TsNIIF
Varcum 2406
VFT
VIAM-B 3
Voloknit VL 2
Pololit E
MDPV
VRB
Resopen
Corephenit HBZ
FK 20
KDFF
Kaproplast KSG
SBS 11
FFB
Foundrez 23-703
Rezocol
Kreodur
Retinax FK 16L
FRV 1
ZhN
FRV 4
DN
R 300
Albertol 626L
VW 65059
Bakelite 207
Bakelite 222
Tegocoll DO 1
ZkN
K 18-2
LBS 3
RA 51
N 1320
K 4
NS (resin)
TS (resin)
K 18;Bakelite BRL 2760
18U
DPK
CR 9357
Noburit HH
Phenodur PR 722
Novogen P 40
Kauresin 250
FK 24A
6KKh1B
Vulkadur A
Novolak 18u
R 10993
Heresite
AG 4B
AG 4C
PM 932
M 0
RP 902
SBS (phenolic resin)
Alnovol 844K
K 17-2
VIAM-B
Iditol (polymer)
ZhB
F 110
Cellobond J 1990/60
2P1000
Caproplast
Kaproplast
Duroplast 9001
Cascophen W 166
W 166F
SFK 2
SF 339
PF 541
PF 544
Amres 5581
Kaproplast KS
MP 120 (phenolic resin)
K 4 (phenolic resin
Phenodur PR 101
9038-25-9
9048-48-0
9048-61-7
9049-60-9
9050-10-6
9050-11-7
9050-66-2
9073-89-6
9079-79-2
9082-36-4
9082-37-5
9087-36-9
9087-71-2
11120-43-7
11138-48-0
12619-76-0
12773-09-0
12773-11-4
12773-12-5
12773-14-7
12798-23-1
37187-19-2
37191-60-9
37209-25-9
37211-56-6
37218-05-6
37260-15-4
37281-00-8
37281-33-7
37291-51-3
37328-79-3
37331-31-0
37331-34-3
37336-53-1
37339-83-6
39277-48-0
39284-11-2
39284-12-3
39284-17-8
39320-26-8
39339-94-1
39382-13-3
39389-44-1
39389-57-6
39412-69-6
39423-38-6

SYNONYMS SPAN 80; Sorbitan Monooleate; Sorbitan oleate; Monodehydrosorbitol monooleate; Sorbitan monooleic acid ester; Sorbitan, mono-9-octadecenoate CAS NO. 1338-43-8

Synonyms: Sorbitan, (9Z)-9-octadecenoate (2:3);SORBITANSESQUIOLEATE,NF;SORBITANSESQUINOLEATE;SORBITANSESQUIOLATE;Sorbitan, (Z)-9-Octadecenoat (2:3);Arlacel(R) 83, Span(R) 83;Lonzest(R) SOC;Arlacel 83 Arlacel C Sorbitan Sesquioleate CAS: 8007-43-0

Cetearyl slcohol;CETOSTEAROL;Alkohole, C16-18;CETOSTEARYL ALCOHOL, USP;D03453;Ecorol 68/30: Cetostearyl Alcohol (30:70) Pastilles;Ecorol 68/50: Cetostearyl Alcohol (50:50) Pastilles;Vegetable Kosher Glycerine CAS No.: 67762-27-0

SYNONYMS 5-(Difluoromethoxy)-2-(((3,4-dimethoxy-2-pyridyl)methyl)sulfinyl)benzimidazole; Pantoprazolum; Pantoprazole sodium sesquihydrate, Pantozol sesquihydrate, Protonix sesquihydrate; cas no:102625-70-7

Stearyl Polyethyleneglycol Methacrylate 1100

Molecular formula: C70H138O27 / C72H142O27
Product specification Assay (NMR): 60 ± 3 %
Water content (ASTM E 203): 20 ± 3 %
Acid content (calc. as methacrylic acid): 20 ± 3
Color on dispatch max.: 100
Standard stabilization (HPLC): 250 ± 50 ppm BHT
40 ± 20 ppm MEHQ
The aforementioned data shall constitute the agreed contractual quality ofthe product at the time of passing of risk.
The data are controlled at regular intervals as part of our quality assurance program.
Neither these data nor the properties of product specimens shall imply any legally binding guarantee of certain properties or of fitness for a specific purpose.
No liability of ours can be derived therefrom.

Applications SSpegma 1100
Spegma 1100 forms homopolymers and copolymers.

Copolymers of Spegma 1100
Methacrylate 1100 (SPEGMA 1100) can be prepared with (meth)acrylic acid and its salts, amides and esters, and with (meth)acrylates, acrylonitrile, maleic acid esters, vinyl acetate, vinyl chloride, vinylidene chloride, styrene, butadiene, unsaturated polyesters and drying oils, etc.
Spegma 1100 is also a very useful feedstock for chemical syntheses, because it readily undergoes addition reactions with a wide variety of organic and inorganic compounds.

Features & Benefits of Spegma 1100
Spegma 1100 can be used to impart the following properties to polymers:
Hydrophobicity / Hydrophilicity
Rheology modification
Dispersant

Storage & Handling of Spegma 1100
In order to prevent polymerization Spegma 1100 must always be stored under air, and never under inert gases.
The presence of oxygen is required for the stabilizer to function
effectively.
Freezing of Spegma 1100) results in segregation of monomer and inhibitor.
In addition it is especially important to replenish dissolved oxygen after melting the drummed material prior to use.
Replenishment dissolved oxygen and mixing of MEHQ into the monomer can be done using a palette shaker or a drum tumbler.
The melting process requires temperatures of 20 °C or higher but at a maximum of 35 °C as the heating temperature.
Warming the product in a room of 20 – 25 °C over several days is the preffered option.
As an alternative if faster mleting is required heating cabinets using hot water or hot oil are the preferred apparatus for thawing process of Spegma 1100 since this avoids hot spots.
Local hot spots of more than 35 °C may result in premature aging of material.
Product temperatures of more than 45 °C may result in a polymerization of the monomer.
During storage as a molten liquid it is advisable to replenish the dissolved oxygen content on a weekly basis.

Spegma 1100 has to contain a stabilizer and the storage temperature must not exceed 20 °C to prevent premature quality degradation.
If the above mentioned conditions are met a storage stability Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) of 6 months can be expected upon delivery
Spegma 1100 is an ester of Methacrylic Acid and is used as a raw material component in the synthesis of polymers.
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) is a monofunctional monomer consisting of a methacrylate group with a characteristic high reactivity and a cyclic hydrophobic group.
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) forms homopolymers and copolymers.
Spegma 1100 can be prepared with (meth)acrylic acid and its salts, amides, and esters, and with (meth)acrylates, acrylonitrile, maleic acid esters, vinyl acetate, vinyl chloride, vinylidene chloride, styrene, butadiene, unsaturated polyesters and drying oils, etc.

Spegma 1100 easily entering into the reaction of accession with a wide range of organic and inorganic substances, is used for the synthesis of organic low molecular weight substances.

Product Type: Spegma 1100

Features & Benefits of Spegma 1100 :
Hydrophobicity
Hydrophilicity
Rheology modification (associative thickening)
Dispersibility
Low (Tg) glass transition temperature
Low volatility due to high molecular weight

Characteristics of Spegma 1100:
Stearyl Polyethyleneglycol Methacrylate 1100 is a structure-activity relationship in associative thickening: in alkaline soluble emulsions/polymers, small amounts of hydrophobic comonomers like SPEGMA interact with each other and create thickening when interacting with other monomer chains.

Applications areas OF tearyl Polyethyleneglycol Methacrylate 1100:
Stearyl Polyethyleneglycol Methacrylate 1100 is used in the preparation of solid polymers, acrylic dispersions, and polymer solutions, which are used in various industries.

It is applied in the production of:
Coatings
Pulp & Paper
Adhesives
Personal care
Oilfield chemicals
Life Science

Chemical Properties OF Spegma 1100:
Purity: 60 ± 3 %
Acid Value: 20 ± 2 %
Water content: 20 ± 2 %
Color APHA: max. 100

Physical Properties of Spegma 1100:
Appearance: Clear, colorless
Physical form: Liquid
Molecular weight: 1411.9 g/mol / 1439.9 g/mol
Tg: –58 °C
Density: 1.05 g/cm3 at 20 °C
Boiling Point: n/a
Melting Point: 0.9 °C
Vapor Point: n/a
pH: 3 – 4.5

Storage & Handling of Spegma 1100:
To avoid polymerization, Stearylpolyethyleneglycol Methacrylate 1100 should always be stored in air and not under inert gases.
For the effective functioning of the stabilizer, the presence of oxygen is necessary.
Freezing of Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) leads to the separation of monomer and inhibitor.
In addition, it is especially it is important to replenish dissolved oxygen after melting the drum material before use.
Dissolved Oxygen Replenishment and Mixing MEHQ's monomer can be made using a palette or a drum toggle switch.
The melting process requires a temperature of 20 °C or higher, but not more than 35 °C as the heating temperature.
Heating the product indoors at a temperature of 20-25 °C for several days is the preferred option.
Alternatively, if faster melting is required, heating cabinets that use hot water or hot oil are the preferred device for defrosting Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100), as this avoids hot spots.
Local hot spots above 35 ° C can lead to premature aging of the material. Product temperatures above 45 °C may lead to the polymerization of the monomer.
During storage in the form of molten liquid, it is advisable to replenish the content of dissolved oxygen weekly.
Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) must contain a stabilizer and the storage temperature must not exceed 20 °C to prevent premature deterioration.
If the above conditions are met, then during storage, you can expect the storage stability of Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) for 6 months.

Safety of Spegma 1100
A Safety Data Sheet has been compiled for Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) that contains up-to-date information on questions relevant to safety.
When working with Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100), the sanitary rules for organizing technological processes and hygienic requirements for production equipment must be strictly observed.
All types of work with Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) should be carried out in rooms equipped with general supply and exhaust ventilation.
Spegma 1100 is not allowed to carry out work in these rooms using an open fire.
Those working with Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) must be provided with special clothing and personal protective equipment.
In the event of a fire, it is necessary to use fire extinguishers OP-5, OVP-100 felt, sand, asbestos cloth.
Stearylpolyethyleneglycol Methacrylate 1100 (SPEGMA 1100) poured onto solid ground should be covered with sand.

PRODUCT SPECIFICATION of Spegma 1100
Properties
Assay: 60 ±3 % NMR
Water content: 20 ±3 % ASTM E 203
Acid content (calc. as methacrylic acid): 20 ±3 % ASTM D 1613
Color on dispatch: max 100
Standard stabilization: 40 ±20 ppm MEHQ
250 ±50 ppm BHT HPLC
CAS #: 70879-51-5

OTHER PROPERTIES of Spegma 1100
Properties Typical Method
Appearance: Clear, colorless
Physical form: Liquid
Density @ 20 °C: 1.05 g/cm3
Melting point: 0.9 °C
Stabilization (Topanol A) < 200 ppm HPLC
pH: 3.0...4.5

APPLICATIONS of Spegma 1100
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) forms homopolymers and copolymers.
Copolymers of Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA1100) can be prepared with (meth)acrylic acid and its salts, amides and esters, and with (meth)acrylates, acrylonitrile, maleic acid esters, vinyl acetate, vinyl chloride, vinylidene chloride, styrene, butadiene, unsaturated polyesters and drying oils, etc.
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) is also a very useful feedstock for chemical syntheses, because it readily undergoes addition reactions with a wide variety of organic and inorganic compounds.

FEATURES AND BENEFITS of Spegma 1100
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA
1100) can be used to impart the following properties to
polymers:
Hydrophobicity / Hydrophilicity
Rheology modification
Dispersant
STORAGE & HANDLING
In order to prevent polymerization Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) must always be stored
under air, and never under inert gases. The presence of oxygen is required for the stabilizer to function effectively.
Freezing of Stearyl Polyethyleneglycol Methacrylate 1100 results in segregation of monomer and inhibitor.
In addition it is especially important to replenish dissolved oxygen after melting the drummed material prior to use.
Replenishment dissolved oxygen and mixing of MEHQ into the monomer can be done using a palette shaker or a drum tumbler.
The melting process requires temperatures of 20 °C or higher but at a maximum of 35 °C as the heating temperature.
Warming the product in a room of 20...25 °C over several days is the preffered option.
As an alternative if faster melting is required heating cabinets using hot water or hot oil are the preferred apparatus for thawing process of Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) since this avoids hot spots.
Local hot spots of more than 35 °C may result in premature aging of material.
Product temperatures of more than 45 °C may result in a polymerization of the monomer.
During storage as a molten liquid it is advisable to replenish the dissolved oxygen content on a weekly basis.
Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) has to contain a stabilizer and the storage temperature must not exceed 20 °C to prevent premature quality degradation.
If the above mentioned conditions are met a storage stability Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) of 6 months can be expected upon delivery.

SAFETY of Spegma 1100
A Safety Data Sheet has been compiled for Stearyl Polyethyleneglycol Methacrylate 1100 (SPEGMA 1100) that contains up-to-date information on questions relevant to safety.

PACKAGING of Spegma 1100
Spegma 1100 can be purchased in bulk and 200L drum. Special packing can be arranged

HYDROCHLORIC ACID TIN(II)-SALT DIHYDRATE SALT OF TIN STANNOUS CHLORIDE STANNOUS CHLORIDE 2H2O STANNOUS CHLORIDE 2-HYDRATE STANNOUS CHLORIDE DIHYDRATE TIN(+2)CHLORIDE DIHYDRATE TIN CHLORIDE, DIHYDRATE TIN(II) CHLORIDE TIN(II) CHLORIDE-2-HYDRATE TIN(II) CHLORIDE DIHYDRATE Stannochlor stannousdichloridedihydrate tin(ii)chloride,dihydrate(1:2:2) Tin(II)chloridedihydrate(1:2:2) Tin (II) chloride hydrated Tin(II) chloride dihydrat Tin(II) chloride hydrate STANNOUS CHLORIDE DIHYDRATE, CRYSTALLIZE D STANNOUS CHLORIDE DIHYDRATE ACS CAS :10025-69-1

Spirit of Mindererus in aqueous solution, is a chemical compound with the formula NH4CH3CO2.
Spirit of Mindererus is a white, hygroscopic solid and can be derived from the reaction of ammonia and acetic acid.
Spirit of Mindererus is widely used in the chemical analysis, in the pharmaceutical industry, the food sector in preserving foods, and in various other industries too.

CAS Number: 631-61-8
EC Number: 211-162-9
Chemical Formula: C2H7NO2
Molar Mass: 77.083 g·mol−1

Spirit of Mindererus appears as a white crystalline solid.
The primary hazard is the threat to the environment.

Immediate steps should be taken to limit Spirit of Mindererus spread to the environment.
Spirit of Mindererus is used in chemical analysis, in pharmaceuticals, in preserving foods, and for other uses.

Spirit of Mindererus is an ammonium salt obtained by reaction of ammonia with acetic acid.
A deliquescent white crystalline solid, Spirit of Mindererus has a relatively low melting point (114℃) for a salt.

Spirit of Mindererus is used as a food acidity regulator, although no longer approved for this purpose in the EU.
Spirit of Mindererus has a role as a food acidity regulator and a buffer.
Spirit of Mindererus is an acetate salt and an ammonium salt.

Spirit of Mindererus is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 1 000 to < 10 000 tonnes per annum.
Spirit of Mindererus is used by consumers, in articles, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.

Spirit of Mindererus in aqueous solution, is a chemical compound with the formula NH4CH3CO2.
Spirit of Mindererus is a white, hygroscopic solid and can be derived from the reaction of ammonia and acetic acid.
Spirit of Mindererus is available commercially.

Spirit of Mindererus is a white crystalline solid formed when ammonia reacts with acetic acid.
Spirit of Mindererus is widely used in the chemical analysis, in the pharmaceutical industry, the food sector in preserving foods, and in various other industries too.
Spirit of Mindererus is also used as a buffer in topical personal care and cosmetic products in manufacturing skin lotions, shampoos, conditioners and more.

Spirit of Mindererus or C2H7NO2 appears in the form of a crystalline white solid with a slight acetous odour.
This ammonium salt is derived from the reaction of ammonia and acetic acid.

The chemical name of this salt is spirit of Mindererus while it is even known as Azanium Acetate on the aqueous form.
The other names of Spirit of Mindererus include ammonium ethanoate and Azanium Acetate.

Spirit of Mindererus is extensively used in the preservation of foods; in pharmaceuticals and the chemical analysis procedure.
Spirit of Mindererus works most effectively when used in the form of a food acidity regulator.

However, Spirit of Mindererus is one of the major threats to the atmosphere or the living environment.
Instant measures need to be taken to restricting the spread of this hazardous sale in the environment.

Spirit of Mindererus is widely utilized as a catalyst in the Knoevenagel condensation.
Spirit of Mindererus is the primary source of ammonia in the Borch reaction in organic synthesis.

Spirit of Mindererus is used with distilled water to make a protein precipitating reagent.
Spirit of Mindererus acts as a buffer for electrospray ionization (ESI) mass spectrometry of proteins and other molecules and as mobile phases for high performance liquid chromatography (HPLC).
Sometimes, Spirit of Mindererus is used as a biodegradable de-icing agent and an acidity regulator in food additives.

Spirit of Mindererus is a salt that has interesting chemical properties and due to this reason, the pharmaceutical industry uses Spirit of Mindererus as an intermediary and raw material in various processes.
Spirit of Mindererus is a salt that forms from the reaction of ammonia and acetic acid.
Also, Spirit of Mindererus is useful for applications that require buffer solutions.

The Henry reactions are the most common reactions that use Spirit of Mindererus.
In an aqueous solution, spirit of Mindererus is a chemical compound that we know by the name Ammonium ethanoate or Azanium acetate, which is a white, hygroscopic solid we can derive from the reaction of ammonia and acetic acid.

Spirit of Mindererus has a variety of applications in molecular biology and chromatography.
Spirit of Mindererus is a useful reagent for the purification and precipitation of DNA and protein.
Spirit of Mindererus can be used in the HPLC and MS analysis of peptides, oligosaccharides, and proteins.

Spirit of Mindererus Uses:
Spirit of Mindererus is used in explosives, foam rubbers, vinyl plastics, and drugs.
Spirit of Mindererus is also used for preserving meats, dyeing and stripping, determining lead and iron, and separating lead sulfate from other sulfates.

There are large scale uses of Spirit of Mindererus.
Spirit of Mindererus is used in the form of a food acidity regulator.

Spirit of Mindererus is the food additive used for changing or controlling the alkalinity or acidity of foods.
Spirit of Mindererus is also widely used in the form of a catalyst in the Knoevenagel condensation procedure.

Spirit of Mindererus serves as one of the best sources of ammonia is the Borch reaction during organic synthesis. 
Spirit of Mindererus is used in combination with wholly distilled water for making a kind of protein precipitating reagent.

Spirit of Mindererus even serves in the form of a buffer for ESI or electrospray ionization mass spectrometry of molecules and proteins and the form of a mobile phase for HPLC or high-performance liquid chromatography.
Quite rarely though, Spirit of Mindererus is even used in the form of a biodegradable de-icing agent.

Spirit of Mindererus even works best when used as a diuretic.
Spirit of Mindererus tends to be unstable at low pressure, and this is why Spirit of Mindererus is used for substituting cell buffers with different non-explosive salts in the preparation of mass spectrometry samples.

Other important uses of Spirit of Mindererus include:
Spirit of Mindererus is used in the manufacture of explosives.
Spirit of Mindererus is used for making foam rubber.

Spirit of Mindererus is used for preserving meat.Used for manufacturing vinyl plastics.
Spirit of Mindererus is used in different agricultural products.

In analytical chemistry, Spirit of Mindererus is used in the form of a reagent.
Spirit of Mindererus is used as a reagent in different dialysis procedures for the elimination of contaminants through diffusion.
In agricultural chemistry, Spirit of Mindererus, when used as a reagent, helps in determining soil CEC or cation exchange capacity along with the availability of potassium in the soil. 

Spirit of Mindererus is the main precursor to acetamide:
NH4CH3CO2 → CH3C(O)NH2 + H2O

Spirit of Mindererus is also used as a diuretic.

Buffer:
As the salt of a weak acid and a weak base, Spirit of Mindererus is often used with acetic acid to create a buffer solution.
Spirit of Mindererus is volatile at low pressures.
Because of this, Spirit of Mindererus has been used to replace cell buffers that contain non-volatile salts in preparing samples for mass spectrometry.

Spirit of Mindererus is also popular as a buffer for mobile phases for HPLC with ELSD detection for this reason.
Other volatile salts that have been used for this include ammonium formate.

When dissolving Spirit of Mindererus in pure water, the resulting solution typically has a pH of 7, because the equal amounts of acetate and ammonium neutralize each other.
However, Spirit of Mindererus is a dual component buffer system, which buffers around pH 4.75 ± 1 (acetate) and pH 9.25 ± 1 (ammonium), but Spirit of Mindererus has no significant buffer capacity at pH 7, contrary to common misconception.

Other:
Spirit of Mindererus is a biodegradable de-icing agent.
Spirit of Mindererus is a catalyst in the Knoevenagel condensation and as a source of ammonia in the Borch reaction in organic synthesis.

Spirit of Mindererus is a protein precipitating reagent in dialysis to remove contaminants via diffusion.
Spirit of Mindererus is a reagent in agricultural chemistry for determination of soil CEC (cation exchange capacity) and determination of available potassium in soil wherein the ammonium ion acts as a replacement cation for potassium.
Spirit of Mindererus is part of Calley's method for lead artifact conservation

Food additive:
Spirit of Mindererus is also used as a food additive as an acidity regulator; INS number 264.
Spirit of Mindererus is approved for usage in Australia and New Zealand.[10]

Widespread uses by professional workers:
Spirit of Mindererus is used in the following products: pH regulators and water treatment products, laboratory chemicals and fertilisers.
Spirit of Mindererus is used in the following areas: health services, scientific research and development, agriculture, forestry and fishing and building & construction work.
Spirit of Mindererus is used for the manufacture of: food products and textile, leather or fur.

Release to the environment of Spirit of Mindererus can occur from industrial use: formulation of mixtures and formulation in materials.
Other release to the environment of Spirit of Mindererus is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners), outdoor use as processing aid, indoor use in long-life materials with low release rate (e.g. flooring, furniture, toys, construction materials, curtains, foot-wear, leather products, paper and cardboard products, electronic equipment) and indoor use in long-life materials with high release rate (e.g. release from fabrics, textiles during washing, removal of indoor paints).

Uses at industrial sites:
Spirit of Mindererus is used in the following products: pH regulators and water treatment products, laboratory chemicals, leather treatment products and textile treatment products and dyes.
Spirit of Mindererus is used in the following areas: health services, scientific research and development and building & construction work.

Spirit of Mindererus is used for the manufacture of: chemicals, textile, leather or fur, food products and fabricated metal products.
Release to the environment of Spirit of Mindererus can occur from industrial use: in processing aids at industrial sites, as an intermediate step in further manufacturing of another substance (use of intermediates), as processing aid and in the production of articles.

Industry Uses:
Agricultural chemicals (non-pesticidal)
Catalyst
Intermediates
Not Known or Reasonably Ascertainable
Other (specify)
Solids separation (precipitating) agent, not otherwise specified
pH regulating agent

Consumer Uses:
Spirit of Mindererus is used in the following products: perfumes and fragrances and cosmetics and personal care products.
Other release to the environment of Spirit of Mindererus is likely to occur from: indoor use as processing aid.

Other Consumer Uses:
Agricultural chemicals (non-pesticidal)
Other (specify)
Photosensitive chemicals

Spirit of Mindererus Applications:
Spirit of Mindererus is widely utilized as a catalyst in the Knoevenagel condensation.
Spirit of Mindererus is the primary source of ammonia in the Borch reaction in organic synthesis.

Spirit of Mindererus is used with distilled water to make a protein precipitating reagent.
Spirit of Mindererus acts as a buffer for electrospray ionization (ESI) mass spectrometry of proteins and other molecules and as mobile phases for high performance liquid chromatography (HPLC).
Sometimes, Spirit of Mindererus is used as a biodegradable de-icing agent and an acidity regulator in food additives.

Spirit of Mindererus Structural Formula:
As Spirit of Mindererus salt is constituted of a weak acid and a weak base and is often used with acetic acid to create a buffer solution.
Spirit of Mindererus chemical component is volatile at low pressures because Spirit of Mindererus has been used to replace cell buffers with non-volatile salts in preparing the chemical samples.

Spirit of Mindererus Production:
Spirit of Mindererus is produced by the neutralization of acetic acid with ammonium carbonate or by saturating glacial acetic acid with ammonia.
Obtaining crystalline Spirit of Mindererus is difficult on account of Spirit of Mindererus hygroscopic nature.

Two methods can be used for obtaining Spirit of Mindererus, and they are:
Through the saturation of glacial acetic acid or CH3COOH with NH3 or ammonia.
Through the neutralization of acetic acid with (NH4)2CO3 or ammonium carbonate.

These are the two basic methods used for obtaining Spirit of Mindererus, though some new methods have also surfaced in recent years.
Spirit of Mindererus functions in the form of an acetamide precursor.

This results in a reaction that follows like this:
NH4CH3CO2 → CH3C (O) NH2 + H2O

Spirit of Mindererus General Manufacturing Information:

Industry Processing Sectors:
Agriculture, Forestry, Fishing and Hunting
All Other Basic Inorganic Chemical Manufacturing
All Other Chemical Product and Preparation Manufacturing
Pharmaceutical and Medicine Manufacturing

Occurrence of Spirit of Mindererus:
In nature, Spirit of Mindererus is not present in a free compound state.
But, ammonium and acetate ions are present in many biochemical processes.

Spirit of Mindererus Properties:

Physical Properties:
Spirit of Mindererus is a hygroscopic white solid with a slightly acidic odor.
Furthermore, Spirit of Mindererus melting point is 113oC.
Also, Spirit of Mindererus is highly soluble in water and Spirit of Mindererus density in this liquid is 1.17 g/mL-1.

Chemical Properties:
Spirit of Mindererus is a slat of a weak acid (acetic acid) and a weak base (ammonia).
Use this salt with acetic acid to prepare a buffer solution that will regulate Spirit of Mindererus pH.
Nevertheless, Spirit of Mindererus use as a buffering agent is not very extensive because Spirit of Mindererus can be volatile in low pressures.

Spirit of Mindererus History:
The synonym Spirit of Mindererus is named after R. Minderer, a physician from Augsburg.

Spirit of Mindererus Handling and Storage

Precautions for safe handling:
Provide adequate ventilation.
When not in use, keep containers tightly closed.

Advice on general occupational hygiene:
Keep away from food, drink and animal feedingstuffs.

Conditions for safe storage, including any incompatibilities:
Store in a dry place.
Keep container tightly closed.
Hygroscopic solid.

Incompatible substances or mixtures:
Observe hints for combined storage.

Protect against external exposure, such as:
humidity

Consideration of other advice:
Specific designs for storage rooms or vessels

Recommended storage temperature: 15–25 °C

Specific end use(s):
No information available.

Spirit of Mindererus Stability and Reactivity:

Reactivity:
Spirit of Mindererus is not reactive under normal ambient conditions.

Chemical stability:
Moisture-sensitive.
Hygroscopic solid.

Possibility of hazardous reactions:

Violent reaction with:
Strong oxidiser, Hypochlorites, Gold compound.

Conditions to avoid:
Protect from moisture.

Incompatible materials:
There is no additional information.

Spirit of Mindererus First Aid Measures:

INHALATION:
Remove victim to fresh air; rinse nose and mouth with water.
If not breathing, give artificial respiration.
If breathing is difficult, give oxygen.

INGESTION:
Induce vomiting immediately. Give large amounts of water.

EYES:
Flush with water for at least 15 min.

SKIN:
Flush with soap and water.

General notes:
Take off contaminated clothing.

Following inhalation:
Provide fresh air.
In all cases of doubt, or when symptoms persist, seek medical advice.

Following skin contact:
Rinse skin with water/shower.

Following eye contact:
Rinse cautiously with water for several minutes.
In all cases of doubt, or when symptoms persist, seek medical advice.

Following ingestion:
Rinse mouth.
Call a doctor if you feel unwell.

Most important symptoms and effects, both acute and delayed:
Nausea, Vomiting, Spasms, Circulatory collapse.

Indication of any immediate medical attention and special treatment needed:
none.

Spirit of Mindererus Firefighting Measures:

Suitable extinguishing media:
co-ordinate firefighting measures to the fire surroundings water, foam, alcohol resistant foam, dry extinguishing powder, ABC-powder.

Unsuitable extinguishing media:
water jet

Special hazards arising from Spirit of Mindererus or mixture:
None.

Hazardous combustion products:

In case of fire may be liberated:
Nitrogen oxides (NOx), Carbon monoxide (CO), Carbon dioxide (CO₂)

Advice for firefighters:
In case of fire and/or explosion do not breathe fumes.
Fight fire with normal precautions from a reasonable distance.
Wear self-contained breathing apparatus.

Spirit of Mindererus Accidental Release Measures:

Personal precautions, protective equipment and emergency procedures:

For non-emergency personnel:
No special measures are necessary.

Environmental precautions:
Keep away from drains, surface and ground water.

Methods and material for containment and cleaning up:

Advice on how to contain a spill:
Covering of drains.
Take up mechanically.

Advice on how to clean up a spill:
Take up mechanically.

Other information relating to spills and releases:
Place in appropriate containers for disposal.
Ventilate affected area.

Spirit of Mindererus Preventive Measures:
The scientific literature for the use of contact lenses in industry is conflicting.
The benefit or detrimental effects of wearing contact lenses depend not only upon Spirit of Mindererus, but also on factors including the form of Spirit of Mindererus, characteristics and duration of the exposure, the uses of other eye protection equipment, and the hygiene of the lenses.
However, there may be individual substances whose irritating or corrosive properties are such that the wearing of contact lenses would be harmful to the eye.

In those specific cases, contact lenses should not be worn.
In any event, the usual eye protection equipment should be worn even when contact lenses are in place.

Spirit of Mindererus Identifiers:
CAS Number: 631-61-8
ChEBI: CHEBI:62947
ChemSpider: 11925
ECHA InfoCard: 100.010.149
EC Number: 211-162-9
PubChem CID: 517165
RTECS number: AF3675000
UNII: RRE756S6Q2
UN number: 3077
CompTox Dashboard (EPA): DTXSID5023873
InChI: InChI=1S/C2H4O2.H3N/c1-2(3)4;/h1H3,(H,3,4);1H3
Key: USFZMSVCRYTOJT-UHFFFAOYSA-N
InChI=1/C2H4O2.H3N/c1-2(3)4;/h1H3,(H,3,4);1H3
Key: USFZMSVCRYTOJT-UHFFFAOYAY
SMILES: O=C([O-])C.[N+H4]

Synonyms: Spirit of Mindererus
Linear Formula: CH3CO2NH4
CAS Number: 631-61-8
Molecular Weight: 77.08
EC Number: 211-162-9

CAS number: 631-61-8
EC number: 211-162-9
Grade: ACS,Reag. Ph Eur
Hill Formula: C₂H₇NO₂
Chemical formula: CH₃COONH₄
Molar Mass: 77.08 g/mol
HS Code: 2915 29 00

Spirit of Mindererus Properties:
Chemical formula: C2H7NO2
Molar mass: 77.083 g·mol−1
Appearance: White solid crystals, deliquescent
Odor: Slightly acetic acid like
Density: 1.17 g/cm3 (20 °C)
1.073 g/cm3 (25 °C)
Melting point: 113 °C (235 °F; 386 K)
Solubility in water: 102 g/100 mL (0 °C)
148 g/100 mL (4 °C)
143 g/100 mL (20 °C)
533 g/100 mL (80 °C)
Solubility: Soluble in alcohol, SO2, acetone, liquid ammonia
Solubility in methanol: 7.89 g/100 mL (15 °C)
131.24 g/100 g (94.2 °C)
Solubility in dimethylformamide: 0.1 g/100 g
Acidity (pKa): 9.9
Basicity (pKb): 33
Magnetic susceptibility (χ): -41.1·10−6 cm3/mol
Viscosity: 21

Density: 1.17 g/cm3 (20 °C)
Melting Point: 114 °C
pH value: 6.7 - 7.3 (50 g/l, H₂O, 25 °C)
Vapor pressure: Bulk density: 410 kg/m3
Solubility: 1480 g/l

Color: Colorless
Density: 1.170 g/cm3 (20 °C)
Form: Solid
Grade: Reagent Grade
Incompatible Materials: Strong oxidizing agents, Strong acids
Melting Point/Range: 113 °C
Purity Percentage: 99.99
Purity Details: ≥99.99%
Solubility in Water: 1.480 g/l (20 °C)
pH-Value: 6.7-7.3 (20 °C)
Storage Temperature: Ambient

Molecular Weight: 77.08 g/mol
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 0
Exact Mass: 77.047678466 g/mol
Monoisotopic Mass: 77.047678466 g/mol
Topological Polar Surface Area: 41.1Ų
Heavy Atom Count: 5
Complexity: 25.5
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

Spirit of Mindererus Specifications:
Assay (acidimetric): ≥ 98.0 %
Insoluble matter: ≤ 0.005 %
pH-value (5 %; water, 25 °C): 6.7 - 7.3
Chloride (Cl): ≤ 0.0005 %
Nitrate (NO₃): ≤ 0.001 %
Sulfate (SO₄): ≤ 0.001 %
Heavy metals (as Pb): ≤ 0.0002 %
Ca (Calcium): ≤ 0.001 %
Fe (Iron): ≤ 0.0002 %
Substances reducing potassium permanganate (as formic acid): ≤ 0.005 %
Residue on ignition (as sulfate): ≤ 0.01 %
Water: ≤ 2.0 %

Appearance of Spirit of Mindererus: complying
Identity (IR): complying
Assay: Min. 97.0 %
pH (5 %, 25 °C): 6.7 - 7.3
Sulfated ash: Max. 0.01 %
Water insoluble matter: Max. 0.005 %
Metal trace analysis (ICP): Max. 100 ppm
Iron (Fe): Max. 5 ppm
Heavy metals (as Pb): Max. 5 ppm
Chloride (Cl): Max. 5 ppm
Nitrate (NO3): Max. 0.001 %
Sulfate (SO4): Max. 0.001 %

Spirit of Mindererus Structure:
Crystal structure: Orthorhombic

Spirit of Mindererus Thermochemistry:
Std enthalpy of formation (ΔfH⦵298): −615 kJ/mol

Spirit of Mindererus Related Products:
Diphenyltin Dichloride
Dipotassium Hydrogen Phosphite
1,​1'-​Diisooctyl Ester 2,​2'-​[(Dioctylstannylene)​bis(thio)​]​bis-acetic Acid (Technical Grade)
Diphenylsilane-D2
4-ethynyl-α,α-diphenyl-Benzenemethanol

Spirit of Mindererus Names:

Regulatory process names:
Ammonium acetate
Ammonium acetate
ammonium acetate

IUPAC names:
acetic acid ammonium salt
Acetic acid, ammonium salt
Acetic Acid, Ammonium Salt, Ammonium ethanoate
Acetic acid; azane
acetic acid; azane
AMMONIUM ACETATE
Ammonium Acetate
Ammonium acetate
ammonium acetate
Ammonium Acetate
Ammonium acetate
Ammonium ethanoate
azanium acetate
azanium;acetate

Trade names:
AMMONIUM ACETATE
Ammonium Acetate

Other identifiers:
1066-32-6
631-61-8
8013-61-4
856326-79-9
858824-31-4
92206-38-7

Spirit of Mindererus Synonyms:
AMMONIUM ACETATE
631-61-8
Acetic acid, ammonium salt
Azanium Acetate
acetic acid ammonium salt
ammoniumacetate
azanium;acetate
ammonium ethanoate
AcONH4
Ammonium acetate-D3
CH3COONH4
CH3CO2NH4
UNII-RRE756S6Q2
HSDB 556
RRE756S6Q2
NH4OAc
AMMONIUM ACETICUM
EINECS 211-162-9
AI3-26540
INS No. 264
DTXSID5023873
CHEBI:62947
EC 211-162-9
ammonia acetate
MFCD00013066
E264
E 264
E-264
AMMONIUM ACETATE (II)
AMMONIUM ACETATE [II]
AMMONIUM ACETATE (MART.)
AMMONIUM ACETATE [MART.]
amoniumacetate
ammonium-acetate
acetic acid amine
ammonium acetate-
ammonia acetate salt
Ammonium Acetate ACS
AAT (CHRIS Code)
AMMONIUM ACETATE [MI]
Ammonium acetate solution, 5M
C2H4O2.H3N
DTXCID203873
AMMONIUM ACETATE [HSDB]
AMMONIUM ACETATE [INCI]
AMMONIUM ACETICUM [HPUS]
AMMONIUM ACETATE [WHO-DD]
USFZMSVCRYTOJT-UHFFFAOYSA-N
Acetic acid ammonium salt (1:1)
Ammonium acetate, biochemical grade
C2-H4-O2.H3-N
Acetic acid, ammonium salt (1:1)
NA9079
AKOS015904610
FT-0622306
EN300-31599
211-162-9 [EINECS]
631-61-8 [RN]
Acétate d'ammonium [French] [ACD/IUPAC Name]
Acetic acid, ammonium salt [ACD/Index Name]
Ammonium acetate [ACD/IUPAC Name] [Wiki]
ammonium ethanoate
Ammoniumacetat [German] [ACD/IUPAC Name]
MFCD00013066 [MDL number]
NH4OAc [Formula]
211-162-9MFCD00013066
acetic acid amine
acetic acid ammoniate
AcONH4
ammonia acetate
Ammonium acetatemissing
ammoniumacetate
azanium acetate
azanium and acetate
azanium ethanoate
buffers
E 264
E264
E-264
INS No. 264
OmniPur Ammonium Acetate - CAS 631-61-8 - Calbiochem
OmniPur(R) Ammonium Acetate

SYNONYMS AROSE 25;MILK SUGAR;LACTOSE BP;Ph.Eur.,USP;LACTOSE 1H2O;EC BROTH (ISO);LACTOSE STANDARD;Monohydrate Lactose;LACTOSE, MONOHYDRATE;LACTOSUM MONOHYDRICUM CAS NO:10039-26-6

Donaliella Salina; Squalane extract; naturally occurring substances CAS NO:111-01-3,999999-99-4

Tomato extract in squalane;lycopersicum esculentum fruit extract; tomato essential oils ; Tomato Colorless Carotenoids CAS NO:90131-63-8

Stabaxol I is a high-performance stabilizer used in various polymer applications for its excellent hydrolysis resistance and versatility.
Stabaxol I is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.
The chemical formula for Stabaxol I is proprietary, and it is commonly used in various industrial applications due to its superior properties.

CAS Number: 76979-65-4
EC Number: 278-198-6

Synonyms: Hydrolysis stabilizer, Stabaxol I, Polymer stabilizer, Stabaxol Polymer Stabilizer, Hydrolysis Resistance Agent, Polymer Additive I, Stabilizer I, Stabaxol Hydrolysis Stabilizer, PU Stabilizer I, Additive I



APPLICATIONS


Stabaxol I is widely used in the stabilization of polyurethane products, providing excellent hydrolysis resistance and durability.
Stabaxol I is essential in the manufacture of high-performance polyurethane foams.
Stabaxol I is utilized in the production of elastomers, enhancing their hydrolytic stability and longevity.

Stabaxol I is a preferred stabilizer for flexible and rigid foams due to its reactivity and efficiency.
Stabaxol I is used in automotive applications for its excellent stability and performance under harsh conditions.
Stabaxol I is found in the production of coatings and sealants, contributing to their durability and hydrolytic resistance.

Stabaxol I is used in water-based polymer systems for its compatibility and stability.
Stabaxol I is a key component in solvent-based polyurethane coatings.
Stabaxol I is used in the textile industry to improve the durability and performance of coatings on fabrics.

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Stabaxol I is a key component in the production of plastics, improving their mechanical properties.
Stabaxol I is utilized in the formulation of industrial coatings, ensuring durability and chemical resistance.

Stabaxol I is applied in the creation of specialty coatings for various industrial applications, ensuring durability and performance.
Stabaxol I is used in the production of coatings for metal surfaces, providing corrosion resistance.
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Stabaxol I is employed in the automotive industry, used in high-performance coatings and adhesives.
Stabaxol I is utilized in the production of wood coatings, enhancing their durability and appearance.

Stabaxol I is found in the manufacture of specialty coatings for industrial machinery.
Stabaxol I is utilized in the formulation of adhesives and sealants.
Stabaxol I is a key ingredient in the production of polyurethane elastomers.

Stabaxol I is employed in the textile industry to improve the performance of coatings on fabrics.
Stabaxol I is used in the rubber industry for its stabilizing properties.
Stabaxol I is essential in the production of high-performance industrial coatings.

Stabaxol I is a vital component in water-based and solvent-based polymer systems.
Stabaxol I is applied in the creation of high-performance industrial products.
Stabaxol I is used in the formulation of household and industrial coatings.

Stabaxol I is utilized in the production of specialty coatings for electronic devices.
Stabaxol I is found in the creation of specialty inks for various applications.
Stabaxol I is used in the production of ceramic and glass coatings.

Stabaxol I is applied in the creation of coatings for plastic surfaces.
Stabaxol I is utilized in the formulation of coatings for wood surfaces.
Stabaxol I is essential in the production of high-performance adhesives.

Stabaxol I is used in the formulation of coatings for automotive applications.
Stabaxol I is utilized in the production of specialty adhesives and sealants.
Stabaxol I is found in the manufacture of coatings for industrial machinery.

Stabaxol I is employed in the creation of specialty coatings for various substrates.
Stabaxol I is used in the formulation of high-performance coatings for various applications.
Stabaxol I is a key component in the production of specialty inks for flexographic and gravure printing.

Stabaxol I is used in the creation of specialty inks for digital printing.
Stabaxol I is essential in the production of high-performance industrial products.
Stabaxol I is utilized in the manufacture of environmentally friendly industrial products.

Stabaxol I is used in the creation of water-based and solvent-based products.
Stabaxol I is a critical ingredient in the formulation of specialty coatings for metal and plastic surfaces.



DESCRIPTION


Stabaxol I is a high-performance stabilizer used in various polymer applications for its excellent hydrolysis resistance and versatility.
Stabaxol I is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.

Stabaxol I is a versatile chemical compound used in various polymer applications.
Stabaxol I is known for its strong stabilizing properties, which improve the durability and performance of polymer products.
Stabaxol I provides excellent chemical resistance, making it ideal for industrial coatings and adhesives.

Stabaxol I is compatible with a wide range of polymer systems, enhancing its versatility in different formulations.
Stabaxol I is widely used in the coatings, adhesives, elastomers, and sealants industries, among others.
Stabaxol I's non-toxic nature makes it safe for use in various industrial and consumer products.

Stabaxol I offers excellent weather resistance, making it suitable for outdoor applications.
Stabaxol I is known for its ease of dispersion, ensuring uniform stabilizing in various systems.
Stabaxol I is essential in the creation of durable and high-performance polymer products.

Stabaxol I's strong stabilizing properties make it a preferred choice in the creation of high-quality industrial coatings.
Stabaxol I is an important precursor in the production of high-performance adhesives and sealants.
Stabaxol I is widely used in the manufacture of durable and resilient polymer products.



PROPERTIES


Chemical Formula: Proprietary
Common Name: Stabaxol I
Molecular Structure: Proprietary
Appearance: Clear liquid
Density: 1.0 g/cm³
Viscosity: Low
Solubility: Miscible with most organic solvents
Reactivity: High
Chemical Stability: Excellent
Compatibility: Wide range of polymer systems
Weather Resistance: Excellent
Dispersion: Easy



FIRST AID


Inhalation:
If Stabaxol I is inhaled, move the affected person to fresh air immediately.
If breathing difficulties persist, seek immediate medical attention.
If the person is not breathing, administer artificial respiration.
Keep the affected person warm and at rest.

Skin Contact:
Remove contaminated clothing and footwear.
Wash the affected skin area thoroughly with soap and water.
If skin irritation or rash develops, seek medical attention.
Launder contaminated clothing before reuse.

Eye Contact:
Flush the eyes with plenty of water for at least 15 minutes, lifting upper and lower eyelids.
Seek immediate medical attention if irritation or redness persists.
Remove contact lenses if present and easy to do; continue rinsing.

Ingestion:
Do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water.
Seek immediate medical attention.
If the person is conscious, give small sips of water to drink.

Note to Physicians:
Treat symptomatically.
No specific antidote.
Provide supportive care.



HANDLING AND STORAGE


Handling:
Personal Protection:
Wear appropriate personal protective equipment (PPE), including chemical-resistant gloves, safety goggles or face shield, and protective clothing.
Use respiratory protection if ventilation is insufficient or if exposure limits are exceeded.

Ventilation:
Ensure adequate ventilation in the working area to control airborne concentrations below occupational exposure limits.
Use local exhaust ventilation or other engineering controls to minimize exposure.

Avoidance:
Avoid direct skin contact and inhalation of vapors.
Do not eat, drink, or smoke while handling Stabaxol I.
Wash hands thoroughly after handling.

Spill and Leak Procedures:
Use appropriate personal protective equipment.
Contain spills to prevent further release and minimize exposure.
Absorb spills with inert materials (e.g., sand, vermiculite) and collect for disposal.

Storage:
Store Stabaxol I in a cool, well-ventilated area away from incompatible materials (see SDS for specific details).
Keep containers tightly closed when not in use to prevent contamination.
Store away from heat sources, direct sunlight, and ignition sources.

Handling Cautions:
Avoid generating aerosols or mists.
Ground and bond containers during transfer operations to prevent static electricity buildup.
Use explosion-proof electrical equipment in areas where vapors may be present.


Storage:

Temperature:
Store Stabaxol I at temperatures recommended by the manufacturer.
Avoid exposure to extreme temperatures.

Containers:
Use approved containers made of compatible materials.
Check for leaks or damage in storage containers regularly.

Separation:
Store Stabaxol I away from incompatible materials, including strong acids, bases, oxidizing agents, and reducing agents.

Handling Equipment:
Use dedicated equipment for handling Stabaxol I to avoid cross-contamination.
Ensure all handling equipment is in good condition.

Security Measures:
Restrict access to storage areas.
Follow all applicable local regulations regarding the storage of hazardous materials.

Emergency Response:
Have emergency response equipment and materials readily available, including spill cleanup materials, fire extinguishers, and emergency eyewash stations.

Stabaxol L is a high-performance stabilizer used in various polymer applications for its excellent hydrolysis resistance and versatility.
Stabaxol L is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.
The chemical formula for Stabaxol L is proprietary, and it is commonly used in various industrial applications due to its superior properties.

CAS Number: 24929-91-9
EC Number: 246-563-8

Synonyms: Hydrolysis stabilizer, Stabaxol L, Polymer stabilizer, Stabaxol Polymer Stabilizer, Hydrolysis Resistance Agent, Polymer Additive L, Stabilizer L, Stabaxol Hydrolysis Stabilizer, PU Stabilizer L, Additive L



APPLICATIONS


Stabaxol L is widely used in the stabilization of polyurethane products, providing excellent hydrolysis resistance and durability.
Stabaxol L is essential in the manufacture of high-performance polyurethane foams.
Stabaxol L is utilized in the production of elastomers, enhancing their hydrolytic stability and longevity.

Stabaxol L is a preferred stabilizer for flexible and rigid foams due to its reactivity and efficiency.
Stabaxol L is used in automotive applications for its excellent stability and performance under harsh conditions.
Stabaxol L is found in the production of coatings and sealants, contributing to their durability and hydrolytic resistance.

Stabaxol L is used in water-based polymer systems for its compatibility and stability.
Stabaxol L is a key component in solvent-based polyurethane coatings.
Stabaxol L is used in the textile industry to improve the durability and performance of coatings on fabrics.

Stabaxol L is employed in the production of rubber materials for its stabilizing properties.
Stabaxol L is used in the manufacturing of synthetic fibers, enhancing their strength and resilience.
Stabaxol L is used in the construction industry for high-performance coatings and sealants.

Stabaxol L is used in the creation of high-performance adhesives, providing strong and durable bonds.
Stabaxol L is a key component in the production of plastics, improving their mechanical properties.
Stabaxol L is utilized in the formulation of industrial coatings, ensuring durability and chemical resistance.

Stabaxol L is applied in the creation of specialty coatings for various industrial applications, ensuring durability and performance.
Stabaxol L is used in the production of coatings for metal surfaces, providing corrosion resistance.
Stabaxol L is essential in the creation of high-quality printing inks, enhancing adhesion and flexibility.

Stabaxol L is used in the production of rubber products, ensuring durable and consistent performance.
Stabaxol L is employed in the automotive industry, used in high-performance coatings and adhesives.
Stabaxol L is utilized in the production of wood coatings, enhancing their durability and appearance.

Stabaxol L is found in the manufacture of specialty coatings for industrial machinery.
Stabaxol L is utilized in the formulation of adhesives and sealants.
Stabaxol L is a key ingredient in the production of polyurethane elastomers.

Stabaxol L is employed in the textile industry to improve the performance of coatings on fabrics.
Stabaxol L is used in the rubber industry for its stabilizing properties.
Stabaxol L is essential in the production of high-performance industrial coatings.

Stabaxol L is a vital component in water-based and solvent-based polymer systems.
Stabaxol L is applied in the creation of high-performance industrial products.
Stabaxol L is used in the formulation of household and industrial coatings.

Stabaxol L is utilized in the production of specialty coatings for electronic devices.
Stabaxol L is found in the creation of specialty inks for various applications.
Stabaxol L is used in the production of ceramic and glass coatings.

Stabaxol L is applied in the creation of coatings for plastic surfaces.
Stabaxol L is utilized in the formulation of coatings for wood surfaces.
Stabaxol L is essential in the production of high-performance adhesives.

Stabaxol L is used in the formulation of coatings for automotive applications.
Stabaxol L is utilized in the production of specialty adhesives and sealants.
Stabaxol L is found in the manufacture of coatings for industrial machinery.

Stabaxol L is employed in the creation of specialty coatings for various substrates.
Stabaxol L is used in the formulation of high-performance coatings for various applications.
Stabaxol L is a key component in the production of specialty inks for flexographic and gravure printing.

Stabaxol L is used in the creation of specialty inks for digital printing.
Stabaxol L is essential in the production of high-performance industrial products.
Stabaxol L is utilized in the manufacture of environmentally friendly industrial products.

Stabaxol L is used in the creation of water-based and solvent-based products.
Stabaxol L is a critical ingredient in the formulation of specialty coatings for metal and plastic surfaces.



DESCRIPTION


Stabaxol L is a high-performance stabilizer used in various polymer applications for its excellent hydrolysis resistance and versatility.
Stabaxol L is characterized by its stability and efficiency in enhancing the durability and longevity of polymer products.

Stabaxol L is a versatile chemical compound used in various polymer applications.
Stabaxol L is known for its strong stabilizing properties, which improve the durability and performance of polymer products.
Stabaxol L provides excellent chemical resistance, making it ideal for industrial coatings and adhesives.

Stabaxol L is compatible with a wide range of polymer systems, enhancing its versatility in different formulations.
Stabaxol L is widely used in the coatings, adhesives, elastomers, and sealants industries, among others.
Stabaxol L's non-toxic nature makes it safe for use in various industrial and consumer products.

Stabaxol L offers excellent weather resistance, making it suitable for outdoor applications.
Stabaxol L is known for its ease of dispersion, ensuring uniform stabilizing in various systems.
Stabaxol L is essential in the creation of durable and high-performance polymer products.

Stabaxol L's strong stabilizing properties make it a preferred choice in the creation of high-quality industrial coatings.
Stabaxol L is an important precursor in the production of high-performance adhesives and sealants.
Stabaxol L is widely used in the manufacture of durable and resilient polymer products.



PROPERTIES


Chemical Formula: Proprietary
Common Name: Stabaxol L
Molecular Structure: Proprietary
Appearance: Clear liquid
Density: 1.0 g/cm³
Viscosity: Low
Solubility: Miscible with most organic solvents
Reactivity: High
Chemical Stability: Excellent
Compatibility: Wide range of polymer systems
Weather Resistance: Excellent
Dispersion: Easy



FIRST AID


Inhalation:
If Stabaxol L is inhaled, move the affected person to fresh air immediately.
If breathing difficulties persist, seek immediate medical attention.
If the person is not breathing, administer artificial respiration.
Keep the affected person warm and at rest.

Skin Contact:
Remove contaminated clothing and footwear.
Wash the affected skin area thoroughly with soap and water.
If skin irritation or rash develops, seek medical attention.
Launder contaminated clothing before reuse.

Eye Contact:
Flush the eyes with plenty of water for at least 15 minutes, lifting upper and lower eyelids.
Seek immediate medical attention if irritation or redness persists.
Remove contact lenses if present and easy to do; continue rinsing.

Ingestion:
Do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water.
Seek immediate medical attention.
If the person is conscious, give small sips of water to drink.

Note to Physicians:
Treat symptomatically.
No specific antidote.
Provide supportive care.



HANDLING AND STORAGE


Handling:
Personal Protection:
Wear appropriate personal protective equipment (PPE), including chemical-resistant gloves, safety goggles or face shield, and protective clothing.
Use respiratory protection if ventilation is insufficient or if exposure limits are exceeded.

Ventilation:
Ensure adequate ventilation in the working area to control airborne concentrations below occupational exposure limits.
Use local exhaust ventilation or other engineering controls to minimize exposure.

Avoidance:
Avoid direct skin contact and inhalation of vapors.
Do not eat, drink, or smoke while handling Stabaxol L.
Wash hands thoroughly after handling.

Spill and Leak Procedures:
Use appropriate personal protective equipment.
Contain spills to prevent further release and minimize exposure.
Absorb spills with inert materials (e.g., sand, vermiculite) and collect for disposal.

Storage:
Store Stabaxol L in a cool, well-ventilated area away from incompatible materials (see SDS for specific details).
Keep containers tightly closed when not in use to prevent contamination.
Store away from heat sources, direct sunlight, and ignition sources.

Handling Cautions:
Avoid generating aerosols or mists.
Ground and bond containers during transfer operations to prevent static electricity buildup.
Use explosion-proof electrical equipment in areas where vapors may be present.


Storage:

Temperature:
Store Stabaxol L at temperatures recommended by the manufacturer.
Avoid exposure to extreme temperatures.

Containers:
Use approved containers made of compatible materials.
Check for leaks or damage in storage containers regularly.

Separation:
Store Stabaxol L away from incompatible materials, including strong acids, bases, oxidizing agents, and reducing agents.

Handling Equipment:
Use dedicated equipment for handling Stabaxol L to avoid cross-contamination.
Ensure all handling equipment is in good condition.

Security Measures:
Restrict access to storage areas.
Follow all applicable local regulations regarding the storage of hazardous materials.

Emergency Response:
Have emergency response equipment and materials readily available, including spill cleanup materials, fire extinguishers, and emergency eyewash stations.

Stabaxol® P is a high-performance hydrolysis stabilizer used in various polymer applications to enhance the durability and lifespan of polymer products.
Stabaxol® P is characterized by its ability to protect polymers from hydrolytic degradation, ensuring long-term stability.
The chemical formula for Stabaxol® P is proprietary, and it is commonly used in various industrial applications due to its superior properties.

CAS Number: 41556-26-7
EC Number: 255-437-1

Synonyms: Hydrolysis stabilizer, Stabaxol® P, Polymer stabilizer, Stabaxol Hydrolysis Stabilizer P, Anti-hydrolysis Agent P, Polymer Additive P, Stabilizer Additive P, PU Stabilizer P, Stabaxol Stabilizer P, Anti-degradation Additive P



APPLICATIONS


Stabaxol® P is widely used in the formulation of polyurethane products, providing excellent hydrolytic stability.
Stabaxol® P is essential in the manufacture of high-performance elastomers, enhancing their resistance to hydrolysis.
Stabaxol® P is utilized in the production of flexible and rigid foams, improving their durability and lifespan.

Stabaxol® P is a preferred stabilizer for automotive applications, ensuring long-term stability under varying environmental conditions.
Stabaxol® P is used in the production of sealants and adhesives, contributing to their hydrolytic resistance and performance.
Stabaxol® P is found in the manufacture of coatings and films, providing enhanced protection against hydrolytic degradation.

Stabaxol® P is used in water-based polymer systems for its compatibility and efficiency in preventing hydrolysis.
Stabaxol® P is a key component in solvent-based polymer formulations, providing long-lasting stability.
Stabaxol® P is employed in the textile industry to improve the durability of coatings on fabrics.

Stabaxol® P is utilized in the production of rubber materials for its anti-hydrolysis properties.
Stabaxol® P is used in the manufacturing of synthetic fibers, enhancing their resistance to hydrolytic degradation.
Stabaxol® P is used in the construction industry for high-performance coatings and sealants.

Stabaxol® P is used in the creation of high-performance adhesives, providing long-term stability and resistance to hydrolysis.
Stabaxol® P is a key component in the production of plastics, improving their resistance to hydrolytic degradation.
Stabaxol® P is utilized in the formulation of industrial coatings, ensuring long-lasting protection and performance.

Stabaxol® P is applied in the creation of specialty coatings for various industrial applications, ensuring enhanced hydrolytic stability.
Stabaxol® P is used in the production of coatings for metal surfaces, providing improved protection against hydrolysis.
Stabaxol® P is essential in the creation of high-quality printing inks, enhancing durability and resistance to hydrolytic degradation.

Stabaxol® P is used in the production of rubber products, ensuring consistent performance and resistance to hydrolysis.
Stabaxol® P is employed in the automotive industry, used in high-performance coatings and adhesives for improved stability.
Stabaxol® P is utilized in the production of wood coatings, enhancing their durability and protection against hydrolytic degradation.

Stabaxol® P is found in the manufacture of specialty coatings for industrial machinery, providing improved stability and performance.
Stabaxol® P is utilized in the formulation of adhesives and sealants, ensuring enhanced resistance to hydrolysis.
Stabaxol® P is a key ingredient in the production of polyurethane elastomers, enhancing their durability and resistance to hydrolytic degradation.

Stabaxol® P is employed in the textile industry to improve the performance and durability of coatings on fabrics.
Stabaxol® P is used in the rubber industry for its anti-hydrolysis properties, improving stability and performance.
Stabaxol® P is essential in the production of high-performance industrial coatings, providing improved durability and resistance to hydrolysis.

Stabaxol® P is a vital component in water-based and solvent-based polymer systems, ensuring enhanced hydrolytic stability and performance.
Stabaxol® P is applied in the creation of high-performance industrial products, providing improved stability and resistance to hydrolysis.
Stabaxol® P is used in the formulation of household and industrial coatings, enhancing their durability and protection against hydrolytic degradation.

Stabaxol® P is utilized in the production of specialty coatings for electronic devices, providing improved stability and protection.
Stabaxol® P is found in the creation of specialty inks for various applications, enhancing durability and resistance to hydrolytic degradation.
Stabaxol® P is used in the production of ceramic and glass coatings, improving their stability and application properties.

Stabaxol® P is applied in the creation of coatings for plastic surfaces, ensuring improved durability and resistance to hydrolysis.
Stabaxol® P is utilized in the formulation of coatings for wood surfaces, providing enhanced durability and protection against hydrolytic degradation.
Stabaxol® P is essential in the production of high-performance adhesives, ensuring improved stability and protection against hydrolysis.

Stabaxol® P is used in the formulation of coatings for automotive applications, providing improved stability and resistance to hydrolysis.
Stabaxol® P is utilized in the production of specialty adhesives and sealants, ensuring enhanced durability and resistance to hydrolytic degradation.
Stabaxol® P is found in the manufacture of coatings for industrial machinery, providing improved stability and performance.

Stabaxol® P is employed in the creation of specialty coatings for various substrates, ensuring improved stability and resistance to hydrolysis.
Stabaxol® P is used in the formulation of high-performance coatings for various applications, providing enhanced durability and resistance to hydrolytic degradation.
Stabaxol® P is a key component in the production of specialty inks for flexographic and gravure printing, ensuring improved durability and resistance to hydrolysis.

Stabaxol® P is used in the creation of specialty inks for digital printing, providing enhanced durability and application properties.
Stabaxol® P is essential in the production of high-performance industrial products, ensuring improved stability and resistance to hydrolytic degradation.
Stabaxol® P is utilized in the manufacture of environmentally friendly industrial products, providing enhanced stability and durability.

Stabaxol® P is used in the creation of water-based and solvent-based products, ensuring improved stability and resistance to hydrolysis.
Stabaxol® P is a critical ingredient in the formulation of specialty coatings for metal and plastic surfaces, providing enhanced stability and application properties.



DESCRIPTION


Stabaxol® P is a high-performance hydrolysis stabilizer used in various polymer applications to enhance the durability and lifespan of polymer products.
Stabaxol® P is characterized by its ability to protect polymers from hydrolytic degradation, ensuring long-term stability.

Stabaxol® P is a versatile chemical compound used in various polymer applications.
Stabaxol® P is known for its strong hydrolysis stabilizing properties, which improve the durability and performance of polymer products.
Stabaxol® P provides excellent compatibility with a wide range of polymers, making it ideal for industrial coatings and adhesives.

Stabaxol® P is compatible with a wide range of polymer systems, enhancing its versatility in different formulations.
Stabaxol® P is widely used in the coatings, adhesives, elastomers, and sealants industries, among others.
Stabaxol® P's non-toxic nature makes it safe for use in various industrial and consumer products.

Stabaxol® P offers excellent stability, making it suitable for applications requiring enhanced resistance to hydrolytic degradation.
Stabaxol® P is known for its ease of dispersion, ensuring uniform hydrolysis stabilization in various systems.
Stabaxol® P is essential in the creation of durable and high-performance polymer products.

Stabaxol® P's strong hydrolysis stabilizing properties make it a preferred choice in the creation of high-quality industrial coatings.
Stabaxol® P is an important precursor in the production of high-performance adhesives and sealants, providing improved stability.
Stabaxol® P is widely used in the manufacture of durable and resilient polymer products, ensuring enhanced stability and performance.



PROPERTIES


Chemical Formula: Proprietary
Common Name: Stabaxol® P
Molecular Structure: Proprietary
Appearance: Clear liquid
Density: 1.1 g/cm³
Viscosity: Low
Solubility: Miscible with most organic solvents
Reactivity: Low
Chemical Stability: Excellent
Compatibility: Wide range of polymer systems
Hydrolysis Stability: Excellent
Dispersion: Easy



FIRST AID


Inhalation:
If Stabaxol® P is inhaled, move the affected person to fresh air immediately.
If breathing difficulties persist, seek immediate medical attention.
If the person is not breathing, administer artificial respiration.
Keep the affected person warm and at rest.

Skin Contact:
Remove contaminated clothing and footwear.
Wash the affected skin area thoroughly with soap and water.
If skin irritation or rash develops, seek medical attention.
Launder contaminated clothing before reuse.

Eye Contact:
Flush the eyes with plenty of water for at least 15 minutes, lifting upper and lower eyelids.
Seek immediate medical attention if irritation or redness persists.
Remove contact lenses if present and easy to do; continue rinsing.

Ingestion:
Do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water.
Seek immediate medical attention.
If the person is conscious, give small sips of water to drink.

Note to Physicians:
Treat symptomatically.
No specific antidote.
Provide supportive care.



HANDLING AND STORAGE


Handling:

Personal Protection:
Wear appropriate personal protective equipment (PPE), including chemical-resistant gloves, safety goggles or face shield, and protective clothing.
Use respiratory protection if ventilation is insufficient or if exposure limits are exceeded.

Ventilation:
Ensure adequate ventilation in the working area to control airborne concentrations below occupational exposure limits.
Use local exhaust ventilation or other engineering controls to minimize exposure.

Avoidance:
Avoid direct skin contact and inhalation of vapors.
Do not eat, drink, or smoke while handling Stabaxol® P.
Wash hands thoroughly after handling.

Spill and Leak Procedures:
Use appropriate personal protective equipment.
Contain spills to prevent further release and minimize exposure.
Absorb spills with inert materials (e.g., sand, vermiculite) and collect for disposal.

Storage:
Store Stabaxol® P in a cool, well-ventilated area away from incompatible materials (see SDS for specific details).
Keep containers tightly closed when not in use to prevent contamination.
Store away from heat sources, direct sunlight, and ignition sources.

Handling Cautions:
Avoid generating aerosols or mists.
Ground and bond containers during transfer operations to prevent static electricity buildup.
Use explosion-proof electrical equipment in areas where vapors may be present.


Storage:

Temperature:
Store Stabaxol® P at temperatures recommended by the manufacturer.
Avoid exposure to extreme temperatures.

Containers:
Use approved containers made of compatible materials.
Check for leaks or damage in storage containers regularly.

Separation:
Store Stabaxol® P away from incompatible materials, including strong acids, bases, oxidizing agents, and reducing agents.

Handling Equipment:
Use dedicated equipment for handling Stabaxol® P to avoid cross-contamination.
Ensure all handling equipment is in good condition.

Security Measures:
Restrict access to storage areas.
Follow all applicable local regulations regarding the storage of hazardous materials.

Emergency Response:
Have emergency response equipment and materials readily available, including spill cleanup materials, fire extinguishers, and emergency eyewash stations.

Stabaxol® P 100 is a high-performance hydrolysis stabilizer used in various polymer applications to enhance the durability and lifespan of polymer products.
Stabaxol® P 100 is characterized by its ability to protect polymers from hydrolytic degradation, ensuring long-term stability.
The chemical formula for Stabaxol® P 100 is proprietary, and it is commonly used in various industrial applications due to its superior properties.

CAS Number: 41556-26-7
EC Number: 255-437-1

Synonyms: Hydrolysis stabilizer, Stabaxol® P 100, Polymer stabilizer, Stabaxol Hydrolysis Stabilizer P 100, Anti-hydrolysis Agent P 100, Polymer Additive P 100, Stabilizer Additive P 100, PU Stabilizer P 100, Stabaxol Stabilizer P 100, Anti-degradation Additive P 100



APPLICATIONS


Stabaxol® P 100 is widely used in the formulation of polyurethane products, providing excellent hydrolytic stability.
Stabaxol® P 100 is essential in the manufacture of high-performance elastomers, enhancing their resistance to hydrolysis.
Stabaxol® P 100 is utilized in the production of flexible and rigid foams, improving their durability and lifespan.

Stabaxol® P 100 is a preferred stabilizer for automotive applications, ensuring long-term stability under varying environmental conditions.
Stabaxol® P 100 is used in the production of sealants and adhesives, contributing to their hydrolytic resistance and performance.
Stabaxol® P 100 is found in the manufacture of coatings and films, providing enhanced protection against hydrolytic degradation.

Stabaxol® P 100 is used in water-based polymer systems for its compatibility and efficiency in preventing hydrolysis.
Stabaxol® P 100 is a key component in solvent-based polymer formulations, providing long-lasting stability.
Stabaxol® P 100 is employed in the textile industry to improve the durability of coatings on fabrics.

Stabaxol® P 100 is utilized in the production of rubber materials for its anti-hydrolysis properties.
Stabaxol® P 100 is used in the manufacturing of synthetic fibers, enhancing their resistance to hydrolytic degradation.
Stabaxol® P 100 is used in the construction industry for high-performance coatings and sealants.

Stabaxol® P 100 is used in the creation of high-performance adhesives, providing long-term stability and resistance to hydrolysis.
Stabaxol® P 100 is a key component in the production of plastics, improving their resistance to hydrolytic degradation.
Stabaxol® P 100 is utilized in the formulation of industrial coatings, ensuring long-lasting protection and performance.

Stabaxol® P 100 is applied in the creation of specialty coatings for various industrial applications, ensuring enhanced hydrolytic stability.
Stabaxol® P 100 is used in the production of coatings for metal surfaces, providing improved protection against hydrolysis.
Stabaxol® P 100 is essential in the creation of high-quality printing inks, enhancing durability and resistance to hydrolytic degradation.

Stabaxol® P 100 is used in the production of rubber products, ensuring consistent performance and resistance to hydrolysis.
Stabaxol® P 100 is employed in the automotive industry, used in high-performance coatings and adhesives for improved stability.
Stabaxol® P 100 is utilized in the production of wood coatings, enhancing their durability and protection against hydrolytic degradation.

Stabaxol® P 100 is found in the manufacture of specialty coatings for industrial machinery, providing improved stability and performance.
Stabaxol® P 100 is utilized in the formulation of adhesives and sealants, ensuring enhanced resistance to hydrolysis.
Stabaxol® P 100 is a key ingredient in the production of polyurethane elastomers, enhancing their durability and resistance to hydrolytic degradation.

Stabaxol® P 100 is employed in the textile industry to improve the performance and durability of coatings on fabrics.
Stabaxol® P 100 is used in the rubber industry for its anti-hydrolysis properties, improving stability and performance.
Stabaxol® P 100 is essential in the production of high-performance industrial coatings, providing improved durability and resistance to hydrolysis.

Stabaxol® P 100 is a vital component in water-based and solvent-based polymer systems, ensuring enhanced hydrolytic stability and performance.
Stabaxol® P 100 is applied in the creation of high-performance industrial products, providing improved stability and resistance to hydrolysis.
Stabaxol® P 100 is used in the formulation of household and industrial coatings, enhancing their durability and protection against hydrolytic degradation.

Stabaxol® P 100 is utilized in the production of specialty coatings for electronic devices, providing improved stability and protection.
Stabaxol® P 100 is found in the creation of specialty inks for various applications, enhancing durability and resistance to hydrolytic degradation.
Stabaxol® P 100 is used in the production of ceramic and glass coatings, improving their stability and application properties.

Stabaxol® P 100 is applied in the creation of coatings for plastic surfaces, ensuring improved durability and resistance to hydrolysis.
Stabaxol® P 100 is utilized in the formulation of coatings for wood surfaces, providing enhanced durability and protection against hydrolytic degradation.
Stabaxol® P 100 is essential in the production of high-performance adhesives, ensuring improved stability and protection against hydrolysis.

Stabaxol® P 100 is used in the formulation of coatings for automotive applications, providing improved stability and resistance to hydrolysis.
Stabaxol® P 100 is utilized in the production of specialty adhesives and sealants, ensuring enhanced durability and resistance to hydrolytic degradation.
Stabaxol® P 100 is found in the manufacture of coatings for industrial machinery, providing improved stability and performance.

Stabaxol® P 100 is employed in the creation of specialty coatings for various substrates, ensuring improved stability and resistance to hydrolysis.
Stabaxol® P 100 is used in the formulation of high-performance coatings for various applications, providing enhanced durability and resistance to hydrolytic degradation.
Stabaxol® P 100 is a key component in the production of specialty inks for flexographic and gravure printing, ensuring improved durability and resistance to hydrolysis.

Stabaxol® P 100 is used in the creation of specialty inks for digital printing, providing enhanced durability and application properties.
Stabaxol® P 100 is essential in the production of high-performance industrial products, ensuring improved stability and resistance to hydrolytic degradation.
Stabaxol® P 100 is utilized in the manufacture of environmentally friendly industrial products, providing enhanced stability and durability.

Stabaxol® P 100 is used in the creation of water-based and solvent-based products, ensuring improved stability and resistance to hydrolysis.
Stabaxol® P 100 is a critical ingredient in the formulation of specialty coatings for metal and plastic surfaces, providing enhanced stability and application properties.



DESCRIPTION


Stabaxol® P 100 is a high-performance hydrolysis stabilizer used in various polymer applications to enhance the durability and lifespan of polymer products.
Stabaxol® P 100 is characterized by its ability to protect polymers from hydrolytic degradation, ensuring long-term stability.

Stabaxol® P 100 is a versatile chemical compound used in various polymer applications.
Stabaxol® P 100 is known for its strong hydrolysis stabilizing properties, which improve the durability and performance of polymer products.
Stabaxol® P 100 provides excellent compatibility with a wide range of polymers, making it ideal for industrial coatings and adhesives.

Stabaxol® P 100 is compatible with a wide range of polymer systems, enhancing its versatility in different formulations.
Stabaxol® P 100 is widely used in the coatings, adhesives, elastomers, and sealants industries, among others.
Stabaxol® P 100's non-toxic nature makes it safe for use in various industrial and consumer products.

Stabaxol® P 100 offers excellent stability, making it suitable for applications requiring enhanced resistance to hydrolytic degradation.
Stabaxol® P 100 is known for its ease of dispersion, ensuring uniform hydrolysis stabilization in various systems.
Stabaxol® P 100 is essential in the creation of durable and high-performance polymer products.

Stabaxol® P 100's strong hydrolysis stabilizing properties make it a preferred choice in the creation of high-quality industrial coatings.
Stabaxol® P 100 is an important precursor in the production of high-performance adhesives and sealants, providing improved stability.
Stabaxol® P 100 is widely used in the manufacture of durable and resilient polymer products, ensuring enhanced stability and performance.



PROPERTIES


Chemical Formula: Proprietary
Common Name: Stabaxol® P 100
Molecular Structure: Proprietary
Appearance: Clear liquid
Density: 1.1 g/cm³
Viscosity: Low
Solubility: Miscible with most organic solvents
Reactivity: Low
Chemical Stability: Excellent
Compatibility: Wide range of polymer systems
Hydrolysis Stability: Excellent
Dispersion: Easy



FIRST AID


Inhalation:
If Stabaxol® P 100 is inhaled, move the affected person to fresh air immediately.
If breathing difficulties persist, seek immediate medical attention.
If the person is not breathing, administer artificial respiration.
Keep the affected person warm and at rest.

Skin Contact:
Remove contaminated clothing and footwear.
Wash the affected skin area thoroughly with soap and water.
If skin irritation or rash develops, seek medical attention.
Launder contaminated clothing before reuse.

Eye Contact:
Flush the eyes with plenty of water for at least 15 minutes, lifting upper and lower eyelids.
Seek immediate medical attention if irritation or redness persists.
Remove contact lenses if present and easy to do; continue rinsing.

Ingestion:
Do not induce vomiting unless directed to do so by medical personnel.
Rinse the mouth thoroughly with water.
Seek immediate medical attention.
If the person is conscious, give small sips of water to drink.

Note to Physicians:
Treat symptomatically.
No specific antidote.
Provide supportive care.



HANDLING AND STORAGE


Handling:

Personal Protection:
Wear appropriate personal protective equipment (PPE), including chemical-resistant gloves, safety goggles or face shield, and protective clothing.
Use respiratory protection if ventilation is insufficient or if exposure limits are exceeded.

Ventilation:
Ensure adequate ventilation in the working area to control airborne concentrations below occupational exposure limits.
Use local exhaust ventilation or other engineering controls to minimize exposure.

Avoidance:
Avoid direct skin contact and inhalation of vapors.
Do not eat, drink, or smoke while handling Stabaxol® P 100.
Wash hands thoroughly after handling.

Spill and Leak Procedures:
Use appropriate personal protective equipment.
Contain spills to prevent further release and minimize exposure.
Absorb spills with inert materials (e.g., sand, vermiculite) and collect for disposal.

Storage:
Store Stabaxol® P 100 in a cool, well-ventilated area away from incompatible materials (see SDS for specific details).
Keep containers tightly closed when not in use to prevent contamination.
Store away from heat sources, direct sunlight, and ignition sources.

Handling Cautions:
Avoid generating aerosols or mists.
Ground and bond containers during transfer operations to prevent static electricity buildup.
Use explosion-proof electrical equipment in areas where vapors may be present.


Storage:

Temperature:
Store Stabaxol® P 100 at temperatures recommended by the manufacturer.
Avoid exposure to extreme temperatures.

Containers:
Use approved containers made of compatible materials.
Check for leaks or damage in storage containers regularly.

Separation:
Store Stabaxol® P 100 away from incompatible materials, including strong acids, bases, oxidizing agents, and reducing agents.

Handling Equipment:
Use dedicated equipment for handling Stabaxol® P 100 to avoid cross-contamination.
Ensure all handling equipment is in good condition.

Security Measures:
Restrict access to storage areas.
Follow all applicable local regulations regarding the storage of hazardous materials.

Emergency Response:
Have emergency response equipment and materials readily available, including spill cleanup materials, fire extinguishers, and emergency eyewash stations.

Stannous chloride; Tin salt; Tin protochloride; Tin dichloride, CAS NO:7772-99-8

SynonymsStannous;TechneScan PYP;tin(ii) phosphate;Tin pyrophosphate;ditin pyrophosphate;TIN(II) DIPHOSPHATE;tin(2+)pyrophosphate;Stannous pyrophospha;phosphonato phosphate;TIN(II) PYROPHOSPHATE CAS No.15578-26-4

SYNONYMS SPAN 80; Sorbitan Monooleate; Sorbitan oleate; Monodehydrosorbitol monooleate; Sorbitan monooleic acid ester; Sorbitan, mono-9-octadecenoate CAS NO. 1338-43-8

Synonyms: Sorbitan, (9Z)-9-octadecenoate (2:3);SORBITANSESQUIOLEATE,NF;SORBITANSESQUINOLEATE;SORBITANSESQUIOLATE;Sorbitan, (Z)-9-Octadecenoat (2:3);Arlacel(R) 83, Span(R) 83;Lonzest(R) SOC;Arlacel 83 Arlacel C Sorbitan Sesquioleate CAS: 8007-43-0

cas no 9005-25-8 Starch from potato; Corn starch; Starch from maize; Starch from wheat;

Stannous sulfate, also known as Tin(+2) Sulfate and Tin(II) Sulfate, has the chemical formula SnSO4.
Stannous sulfate is commonly used in acid tin plating baths, liquor finishing and drawing of steel wire.
Stannous sulfate appears as a white or yellowish-white hygroscopic crystalline powder with no odor.

CAS Number: 7488-55-3
EC Number: 231-302-2
Molecular Formula: O4SSn
Molecular Weight (g/mol): 214.77

Stannous sulfate is a chemical compound.
Stannous sulfate is a white solid that can absorb enough moisture from the air to become fully dissolved, forming an aqueous solution; this property is known as deliquescence.

Stannous sulfate can be prepared by a displacement reaction between metallic tin and copper(II) sulfate:
Sn (s) + CuSO4 (aq) → Cu (s) + SnSO4 (aq)

Stannous sulfate is a convenient source of tin(II) ions uncontaminated by tin(IV) species.

Stannous sulfate (SnSO4) is a chemical compound.
Stannous sulfate is a white solid that can absorb enough moisture from the air to become fully dissolved, forming an aqueous solution.

Stannous sulfate is a white to slightly yellow, heavy crystalline powder.
When dissolved in a 5% Sulfuric Acid Solution, a clear solution is obtained.

Gradual hydrolysis occurs over a period of time with the formation of insoluble tin compounds.
Stannous sulfate is commonly used in acid tin plating baths, liquor finishing and drawing of steel wire.

Stannous sulfate delivers a high current efficiency and smooth, fine grained deposits.
A bright finish can be obtained by flow melting of through the use of certain additives.

Stannous sulfate is used primarily in electroplating plating and as a dying agent.
Bright tin acid plating is more corrosion resistant than alkaline tin plating.

Acid tin plating is a process to create a mirror like finish on different metals like copper, brass, steel, etc.
This applies to several industries including: switch gears, electrical and electronics, bimetal bearing, etc.

Stannous sulfate, also known as Tin(+2) Sulfate and Tin(II) Sulfate, has the chemical formula SnSO4.
Stannous sulfate appears as a white or yellowish-white hygroscopic crystalline powder with no odor.

Stannous sulfate is soluble in Water at ambient conditions.
Chemically pure or Laboratory reagents are the two terms often used to describe Lab Grade chemicals.
Lab Grade chemicals do not meet any accepted quality or purity requirements such as the ACS Grade, the USP Grade, and the FCC Grade, despite their acceptable purity.

Stannous sulfate is a chemical compound.
Stannous sulfate is a white solid that can absorb enough moisture from the air to become fully dissolved, forming an aqueous solution; this property is known as deliquescence.

Stannous sulfate can be prepared by a displacement reaction between metallic tin and copper(II) sulfate:
Sn (s) + CuSO4 (aq) → Cu (s) + SnSO4 (aq)

Stannous sulfate is a convenient source of tin(II) ions uncontaminated by tin(IV) species.

Stannous sulfate is a sulfate of tin.
Tin is a chemical element with the symbol Sn and atomic number 50.
Stannous sulfate is a natural component of the earth's crust and is obtained chiefly from the mineral cassiterite, where Stannous sulfate occurs as tin dioxide.

Stannous sulfate is registered under the REACH Regulation and is manufactured in and / or imported to the European Economic Area, at ≥ 1 000 to < 10 000 tonnes per annum.
Stannous sulfate is used by consumers, in articles, by professional workers (widespread uses), in formulation or re-packing, at industrial sites and in manufacturing.

Stannous sulfate is mainly used for coloring aluminum profiles by an anodizing process in the building industry.
Stannous sulfate is also used in electroplating, for electrolytic tin plating (tinning).
Stannous sulfate is used as a raw material for the production of tin chemicals.

Stannous sulfate is a moderately water and acid soluble Tin source for uses compatible with sulfates.
Sulfate compounds are salts or esters of sulfuric acid formed by replacing one or both of the hydrogens with a metal.

Most metal sulfate compounds are readily soluble in water for uses such as water treatment, unlike fluorides and oxides which tend to be insoluble.
Organometallic forms are soluble in organic solutions and sometimes in both aqueous and organic solutions.

Metallic ions can also be dispersed utilizing suspended or coated nanoparticles and deposited utilizing sputtering targets and evaporation materials for uses such as solar cells and fuel cells.
Stannous sulfate is generally immediately available in most volumes.
High purity, submicron and nanopowder forms may be considered.

Tin is a chemical element with the symbol Sn and atomic number 50.

Stannous sulfate, technical is also known as Tin(II) sulfate.
Stannous sulfate is often a source of tin(II) ions uncontaminated by tin(IV) species.

Stannous sulfate absorbs moisture from the air and is able to dissolve in Stannous sulfate which forms a solution.
This process is called deliquescence.
Technical grade products supplied by Spectrum are indicative of a grade suitable for general industrial use.

The synthesis of Stannous sulfate involves the reaction of potassium dichromate and sulfuric acid or hydrochloric acid.
Stannous sulfate is a white crystalline solid that is soluble in water.

Stannous sulfate has been used to prepare other types of sulfates, such as calcium stearate.
Stannous sulfate is a strong reducing agent and can be used to reduce metal ions, such as chromium (III) ions.

Stannous sulfate also has an acidic pH and can be used in the preparation of other compounds with acidic properties, such as sodium carbonate and trifluoromethanesulfonic acid.
Stannous sulfate has a redox potential of 0.85 volts and Stannous sulfate optimum concentration is at 1 Molar.

Stannous sulfate also has an anhydrous form that can be made by heating anhydrous sodium to 100 °C and then adding sulfuric acid while stirring until all the sodium dissolves into solution.
The optical sensor for Stannous sulfate is blue-green on.

Applications of Stannous sulfate:
Stannous sulfate can be used in the electrosynthesis of Cu2ZnSnS4 (CZTS) thin films for solar cell application.
Stannous sulfate can be used to synthesize ternary Cu-Sn-S chalcogenides such as Cu2SnS3, Cu5Sn2S7 and Cu3SnS4 by successive ionic layer adsorption and reaction (SILAR) method.
Stannous sulfate can also be used in the preparation of tin (IV) oxide (SnO2) nanoparticles which are widely used in battery electrodes, fabrication of supercapacitors and opto-electronic devices.

Uses of Stannous sulfate:
Stannous sulfate is the sulfate salt of stannous.
Study has shown that Stannous sulfate can be mixed with gypsum to make a retarder in grinding portal cement and blended hydraulic cement, which can improve the quality of the cement, mortar and concrete.

Stannous sulfate can also be used as the reducing agent during the determination of mercury, cobalt and nickel through atomic absorption spectrophotometry.
Stannous sulfate can also be used as an electrolyte additive to be supplemented to the battery.
This could have a positive effect on restraining larger particles of irreversible sulfation in charge-discharge cycles of battery testing.

Stannous sulfate is used in tin plating and to make stannous salts.
Stannous sulfate is mainly used for coloring aluminum profiles by an anodizing process in the building industry.

Stannous sulfate is also used in electroplating, for electrolytic tin plating (tinning).
Stannous sulfate is used as a raw material for the production of tin chemicals.

Widespread uses by professional workers
Stannous sulfate is used in the following products: fillers, putties, plasters, modelling clay and metal surface treatment products.
Stannous sulfate is used in the following areas: building & construction work.

Stannous sulfate is used for the manufacture of: mineral products (e.g. plasters, cement) and fabricated metal products.
Other release to the environment of Stannous sulfate is likely to occur from: indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners) and outdoor use.

Uses at industrial sites:
Stannous sulfate is used in the following products: laboratory chemicals, metal surface treatment products, adhesives and sealants, polymers, non-metal-surface treatment products and semiconductors.
Stannous sulfate is used in the following areas: building & construction work.

Stannous sulfate is used for the manufacture of: chemicals, fabricated metal products and mineral products (e.g. plasters, cement).
Release to the environment of Stannous sulfate can occur from industrial use: in the production of articles, as an intermediate step in further manufacturing of another substance (use of intermediates), in processing aids at industrial sites and as processing aid.

Industry Uses:
Bleaching agent
Plating agents and surface treating agents

Consumer Uses:
Stannous sulfate is used in the following products: fillers, putties, plasters, modelling clay.
Other release to the environment of Stannous sulfate is likely to occur from: outdoor use and indoor use (e.g. machine wash liquids/detergents, automotive care products, paints and coating or adhesives, fragrances and air fresheners).

Other Consumer Uses:
Not Known or Reasonably Ascertainable
Other (specify)

Industrial Processes with risk of exposure:
Electroplating

Structure of Stannous sulfate:
In the solid state the sulfate ions are linked together by O-Sn-O bridges.
The tin atom has three oxygen atoms arranged pyramidally at 226 pm with the three O-Sn-O bond angles of 79°, 77.1° and 77.1°.
Other Sn-O distances are longer ranging from 295 - 334pm.

General Manufacturing Information of Stannous sulfate:

Industry Processing Sectors:
All Other Basic Inorganic Chemical Manufacturing
Fabricated Metal Product Manufacturing
Miscellaneous Manufacturing

Handling and Storage of Stannous sulfate:

Advice on safe handling:
Work under hood.
Do not inhale substance/mixture.

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:
No metal containers.
Tightly closed.
Moisture sensitive.

Storage class:
Storage class (TRGS 510): 8B: Non-combustible, corrosive hazardous materials

Stability and Reactivity of Stannous sulfate:

Reactivity:
No data available

Chemical stability:
Stannous sulfate is chemically stable under standard ambient conditions (room temperature).

Possibility of hazardous reactions:

Violent reactions possible with:
Strong oxidizing agents

Conditions to avoid
Avoid moisture.

First Aid Measures of Stannous sulfate:

General advice:
Show Stannous sulfate safety data sheet to the doctor in attendance.

After inhalation:
Fresh air.
Immediately call in physician.

If breathing stops:
Immediately apply artificial respiration, if necessary also oxygen.

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

Consult a physician.
In case of eye contact

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

After swallowing:
Immediately make victim drink water (two glasses at most).
Consult a physician.

Firefighting Measures of Stannous sulfate:

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.

Special hazards arising from Stannous sulfate or mixture:
Sulfur oxides
Tin/tin oxides

Not combustible.
Ambient fire may liberate hazardous vapours.

Advice for firefighters:
Stay in danger area only with self-contained breathing apparatus.
Prevent skin contact by keeping a safe distance or by wearing suitable protective clothing.

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.

Accidental Release Measures of Stannous sulfate:

Advice for non-emergency personnel:
Avoid inhalation of dusts. Avoid substance contact.
Ensure adequate ventilation.
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 Stannous sulfate:
CAS Number: 7488-55-3
ChemSpider: 21106484
ECHA InfoCard: 100.028.457
EC Number: 231-302-2
PubChem CID: 62643
UNII: 0MFE10J96E
CompTox Dashboard (EPA): DTXSID20884389
InChI: InChI=1S/H2O4S.Sn.2H/c1-5(2,3)4;;;/h(H2,1,2,3,4);;;/q;+2;;/p-2
Key: RCIVOBGSMSSVTR-UHFFFAOYSA-L
InChI=1/H2O4S.Sn.2H/c1-5(2,3)4;;;/h(H2,1,2,3,4);;;/q;+2;;/p-2/rH2O4S.H2Sn/c1-5(2,3)4;/h(H2,1,2,3,4);1H2/q;+2/p-2
Key: RCIVOBGSMSSVTR-YHUAHBEBAB
SMILES: [O-]S(=O)(=O)[O-].[SnH2+2]

EC / List no.: 231-302-2
CAS no.: 7488-55-3
Mol. formula: O4SSn

Linear Formula: SnSO4
MDL Number: MFCD00011246
EC No.: 231-302-2
Beilstein/Reaxys No.: N/A
Pubchem CID: 62643
IUPAC Name: tin(+2); sulfate
SMILES: [O-]S(=O)(=O)[O-].[Sn+2]
InchI Identifier: InChI=1S/H2O4S.Sn/c1-5(2,3)4;/h(H2,1,2,3,4);/q;+2/p-2
InchI Key: OBBXFSIWZVFYJR-UHFFFAOYSA-L

Synonym(s): Stannous sulfate
Linear Formula: SnSO4
CAS Number: 7488-55-3
Molecular Weight: 214.77
EC Number: 231-302-2
MDL number: MFCD00011246
PubChem Substance ID: 24854690
NACRES: NA.22

CAS: 7488-55-3
Molecular Formula: O4SSn
Molecular Weight (g/mol): 214.77
MDL Number: MFCD00011246
InChI Key: OBBXFSIWZVFYJR-UHFFFAOYSA-L
PubChem CID: 62643
IUPAC Name: λ²-tin(2+) sulfate
SMILES: [Sn++].[O-]S([O-])(=O)=O

Properties of Stannous sulfate:
Chemical formula: SnSO4
Molar mass: 214.773 g/mol
Appearance: white-yellowish crystalline solid deliquescent
Density: 4.15 g/cm3
Melting point: 378 °C (712 °F; 651 K)
Boiling point: decomposes to SnO2 and SO2
Solubility in water: 33 g/100 mL (25 °C)

Compound Formula: O4SSn
Molecular Weight: 214.75
Appearance: White-Yellowish Crystalline Solid
Melting Point: 378° C (712.4° F)
Boiling Point: decomposes to SnO2 and SO2
Density: 4.15 g/cm3
Solubility in H2O: 33 g/100 mL (25 °C)
Exact Mass: 215.854 g/mol
Monoisotopic Mass: 215.854 g/mol

Quality Level: 100
Assay: ≥95%

Reaction suitability:
Core: tin
Reagent type: catalyst

SMILES string: [SnH2++].[O-]S([O-])(=O)=O
InChI: 1S/H2O4S.Sn/c1-5(2,3)4;/h(H2,1,2,3,4);/q;+2/p-2
InChI key: OBBXFSIWZVFYJR-UHFFFAOYSA-L

Molecular Weight: 214.78 g/mol
Hydrogen Bond Donor Count: 0
Hydrogen Bond Acceptor Count: 4
Rotatable Bond Count: 0
Exact Mass: 215.853932 g/mol
Monoisotopic Mass: 215.853932 g/mol
Topological Polar Surface Area: 88.6Ų
Heavy Atom Count: 6
Complexity: 62.2
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

Specifications of Stannous sulfate:
Melting Point: 360°C
Color: White
pH: 2.0
Physical Form: Solid
Quantity: 500 mL
Formula Weight: 214.77
Grade: Laboratory
Identification: Pass Test
Packaging: HDPE Bottle
Chemical Name or Material: Stannous Sulfate

Structure of Stannous sulfate:
Crystal structure: Primitive orthorhombic
Space group: Pnma, No. 62
Lattice constant: a = 8.80 Å, b = 5.32 Å, c = 7.12 Å

Related compounds of Stannous sulfate:

Other anions:
Tin(II) chloride, tin(II) bromide, tin(II) iodide

Other cations:
Lead(II) sulfate

Names of Stannous sulfate:

Regulatory process names:
Tin sulphate
Tin sulphate
tin sulphate

CAS names:
Sulfuric acid, tin(2+) salt (1:1)

IUPAC names:
lambda2-tin(2+) sulfate
stannane disulfate
stannane sulfate
Stannous sulfate
stannous sulphate
stannous sulphate, crystalline
Sulfuric acid, tin(2+) salt (1:1)
tin (2+) sulfate
Tin (ii) sulphate
tin (II) sulphate
Tin sulphate
tin sulphate
tin sulphate
TIN TETROXYSULPHATE
TIN(+2)SULFATE
tin(2+) sulfate
tin(2+);sulfate
tin(4+) disulfate
tin(II) sulphate
Tin(II) sulphate
Tin(II)sulphate

Trade names:
Tin(II) sulfate, Tin(II) sulphate, Stannous(II) sulfate, Stannous(II) sulphate

Other name:
Stannous sulfate

Other identifiers:
210894-86-3
210894-86-3
4327-98-4
4327-98-4
7488-55-3

Synonyms of Stannous sulfate:
STANNOUS SULFATE
Tin(II) sulfate
7488-55-3
Tin(2+) sulfate
Sulfuric acid, tin(2+) salt (1:1)
TIN(II)SULFATE
0MFE10J96E
MFCD00011246
tin(2+);sulfate
EINECS 231-302-2
UNII-0MFE10J96E
Tin (II) Sulfate
Stannous Sulfate, Crystal
EC 231-302-2
STANNOUS(II) SULFATE
TIN SULFATE (SNSO4)
STANNOUS SULFATE [MI]
DTXSID20884389
Tin(II)-sulphate min. 99%, p.a.
FT-0686844
Q204981
J-524303
19307-28-9 [RN]
Disulfate d'étain(4+) [French] [ACD/IUPAC Name]
tin bis(sulphate)
TIN SULFATE
Tin(4+) disulfate [ACD/IUPAC Name]
Zinn(4+)disulfat [German] [ACD/IUPAC Name]
[19307-28-9] [RN]
10031-62-6 [RN]
242-952-1 [EINECS]
MFCD00135545
Stannic sulfate
Stannous sulfate
Sulfurous acid, tin salt
tin sulphate
TIN(4+) DISULFATE|TIN(4+) DISULFATE
TIN(4+) ION DISULFATE

Tin (II) Chloride; Tin Dichloride; Tin Protochloride; cas no : 7772-99-8

Amylum, Potato starch for determination of diastase; starch CAS NO:9005-84-9

Sulfuric acid, tin(2+) salt (1:1); Tin (II) Sulfate; Zinnsulfat; Sulfato de estaño (Spanish); Sulfate d'étain (French) cas no : 7488-55-3

STEARAMIDE MEA N° CAS : 111-57-9 Nom INCI : STEARAMIDE MEA Nom chimique : N-(2-Hydroxyethyl)octadecanamide N° EINECS/ELINCS : 203-883-2 Classification : MEA Ses fonctions (INCI) Antistatique : Réduit l'électricité statique en neutralisant la charge électrique sur une surface Sinergiste de mousse : Améliore la qualité de la mousse produite en augmentant une ou plusieurs des propriétés suivantes: volume, texture et / ou stabilité Agent de contrôle de la viscosité : Augmente ou diminue la viscosité des cosmétiques

synonyme : octyl stearate, Inci : ethylhexyl stearate, Cas : 91031-48-2 ; 22047-49-0, EC : 292-951-5 ; 244-754-0, STÉARATE D'ÉTHYLHEXYLE, Le stéarate d'éthylhexyle, Emollient : Adoucit et assouplit la peau, Liquide huileux incolore à légèrement jaune, Acide gras en C16-18, esters d’éthyl-2 hexyl; Butyl stearate; N-Butyl stearate

DESCRIPTION:
Stearamidopropyl dimethylamine is an ingredient in some types of hair conditioner.
Stearamidopropyl dimethylamine has antistatic, emulsifying, hair conditioning, and surfactant properties.
Stearamidopropyl dimethylamine is water soluble, readily biodegradable, and mildly toxic to aquatic life.

CAS Number: 7651-02-7
EC Number: 231-609-1
Preferred IUPAC name: N-[3-(Dimethylamino)propyl]octadecanamide


CHEMICAL AND PHYSICAL PROPERTIES OF STEARAMIDOPROPYL DIMETHYLAMINE:
Chemical formula: C23H48N2O
Molar mass: 368.650 g•mol−1
Boiling Point: 208-215°C
Melting Point: 49-50°C
Solubility: Soluble in water
Assay: 95.00 to 100.00 %
Food Chemicals Codex Listed: No
Boiling Point: 496.00 to 497.00 °C. @ 760.00 mm Hg (est)
Flash Point: 490.00 °F. TCC ( 254.30 °C. ) (est)
logP (o/w): 7.618 (est)
Storage: Store under room temperature. Avoid Heat & Light.
Shelf Life: 24Months from manufacturing or testing date (Current Lot will expire: 02/2024)
Dosage (Range): 0.1% - 5%
Recommended Dosage: 3%
Mix Method: Add into oil phase. Heat tolerant.
Heat Resistance: Avoid heat above 80C
Stable in pH range: 3.5 - 6.5
Solubility: Oil

Stearamidopropyl Dimethylamine is a fatty mine salt, used as a hair care ingredient used as a conditioning and anti-static agent in shampoos and conditioners, and is also sometimes used for its luminescent, pearl-like properties.
Stearamidopropyl Dimethylamine serves in some cases as a mild detergent that can remove hair build-up (Happi.com).
When seen as a surfactant, it is at concentrations much lower than typical shampoo levels (1% vs 12%) and is considered a mild alternative to other harsher cleansers.

Stearamidopropyl Dimethylamine is a kind of amine compound, applicable in hair & cream product as a cationic conditioner.
Stearamidopropyl Dimethylamine can reduce static upon hair under acid conditions, and can be used as antistatic agent in hair care products.

Stearamidopropyl dimethylamine is an emulsifier and a surfactant with cleansing properties which is commonly used in hair care products to condition and improve the appearance of hair.
Stearamidopropyl dimethylamine was introduced as a replacement to silicones since they are not easily broken down, and this compound is biodegradable.
Stearamidopropyl dimethylamine appears as a yellowish, waxy flake.

Stearamidopropyl Dimethylamine is a conditioning agent and co-emulsifier.
Stearamidopropyl Dimethylamine is electrostatically substantive & improves wet and dry combing.
Stearamidopropyl Dimethylamine provides good static control and conditioning without build-up.
Stearamidopropyl Dimethylamine Functions as hair or skin conditioner and primary o/w emulsifier through partial neutralization.
As hair conditioner, Stearamidopropyl Dimethylamine does not build-up and improves the substantivity of proteins and quaternary conditioners.

Stearamidopropyl Dimethylamine can be used as a co-emulsifier in skin care product: for this use it should be incorporated in the oil phase; the pH of the water phase should be in the range of 6.5 to 5.5 when the phases are joined.
Additional acid can be added after the emulsion has been formed without affecting the stability of the system.

BENEFITS OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl Dimethylamine gives the hair a soft silky feel and makes it easy to comb through.
Stearamidopropyl Dimethylamine is known to act as a potent surfactant.

Stearamidopropyl Dimethylamine has been reported to be a far superior and cheaper alternative to other conditioners.
Stearamidopropyl Dimethylamine possesses a positive charge which can help offset the negative charge from shampooing the hair.
Stearamidopropyl Dimethylamine is known to diminish static build up on the hair.

USES OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine is mainly used as an emulsifier, and surfactant in cosmetics, particularly in hair care products.

Hair care:
Stearamidopropyl dimethylamine is used in shampoos or hair conditioners due to its antistatic effect.
Stearamidopropyl dimethylamine serves as a mild surfactant that removes dirt build-up from the hair.
Stearamidopropyl dimethylamine imparts a soft and silky feel to the hair, making it easier to comb through.

Stearamidopropyl dimethylamine possesses a positive charge which can help offset the negative charge from shampooing the hair and is a cheaper alternative to other conditioners.
Stearamidopropyl dimethylamine does not suppress foam and can be used with anionic surfactants and also helps to build the viscosity of the formulation.
Stearamidopropyl dimethylamine is generally used at a maximum concentration of 0.01%-5%

Stearamidopropyl dimethylamine is an emulsifier, conditioning agent and surfactant with cleansing properties which is commonly used in hair care products to condition and improve the appearance of hair.
Stearamidopropyl dimethylamine can be used in formulas as a replacement to silicones since they are not easily broken down, and is biodegradable.
Stearamidopropyl dimethylamine Functions as a skin conditioner.

Stearamidopropyl dimethylamine is Suitable for making no-build up products.
Stearamidopropyl dimethylamine Improves the substantivity of proteins and quaternary conditioners.
Stearamidopropyl dimethylamine is used in shampoos or hair conditioners due to its antistatic effect.

Stearamidopropyl dimethylamine serves as a mild surfactant that removes dirt build-up from the hair.
Stearamidopropyl dimethylamine imparts a soft and silky feel to the hair, making it easier to comb through.
Stearamidopropyl dimethylamine possesses a positive charge which can help offset the negative charge from shampooing the hair.


ORIGIN OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine is obtained by mixing together refined vegetable oils with 3,3-dimethylaminopropylamine (DMAPA) and heating the mixture.

FORMULATION OF STEARAMIDOPROPYL DIMETHYLAMINE :
• Antistatic
• Emulsifying
• Hair conditioning
• Surfactant

SAFETY PROFILE OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine has been deemed safe for use in cosmetics by the Cosmetic Ingredient Review (CIR) board, when they are formulated to be non-sensitizing.



SAFETY INFORMATION ABOUT STEARAMIDOPROPYL DIMETHYLAMINE
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.

Stearamidopropyl dimethylamine has antistatic, emulsifying, hair conditioning, and surfactant properties.
Stearamidopropyl dimethylamine appears as a yellowish, waxy flake.
Stearamidopropyl dimethylamine is an amine compound, derived from vegetable sourced C-18 fatty acid.


CAS Number: 7651-02-7
EC Number: 231-609-1
Chem/IUPAC Name: N-[3-(Dimethylamino)Propyl]Stearamide
Chemical formula: C23H48N2O



N-[3-(Dimethylamino)propyl]octadecanamide, N-(3-Dimethylaminopropyl)octadecanamide, 7651-02-7, N-[3-(Dimethylamino)propyl]stearamide, Stearamidopropyl dimethylamine, N-[3-(Dimethylamino)propyl]octadecanamide, Octadecanamide, N-[3-(dimethylamino)propyl]-, Lexamine S 13, N-(3(Dimethylamino)propyl)stearamide,
Tegamine S 13, K7VEI00UFR, Stearamidopropyldimethylamine, Dimethylaminopropyl stearamide, Stearic 3-dimethylaminopropylamide, TEGO AMID S- 18, Octadecanoylamidopropyldimethylamine, N-(3-Dimethylamidopropyl)stearamide, N-(3-Dimethylaminopropyl)octadecamide, NSC-86167, Stearic acid, 3-dimethylaminopropylamide, N,N-Dimethyl-N-(3-stearamidopropyl)amine, N,N-Dimethyl-3-octadecanoylaminopropylamine, Octadecanamide, N-(3-(dimethylamino)propyl)-, N-(3-(Dimethylamino)propyl)octadecanamide, incromine sd, Mackine 301, UNII-K7VEI00UFR, JEECHEM S-13, TEGO AMID S 18, SCHEMBL23353, N-Dimethylaminopropylstearamide, DTXSID9064762, WWVIUVHFPSALDO-UHFFFAOYSA-N, NSC86167, EINECS 231-609-1, NSC 86167, AKOS024429065, N-stearoylaminopropyl-N,N-dimethylamine, NS00003937, STEARAMIDOPROPYL DIMETHYLAMINE [INCI], EC 231-609-1, N-octadecanoyl-N',N'-dimethyl-1,3-diaminopropane, Q7605502, W-110230, 2-HYDROXY- COMPD. WITH N-[3-(DIMETHYLAMINO)PROPYL]OCTADECANAMIDE PROPANOIC ACID, COMPD. WITH N-[3-(DIMETHYLAMINO)PROPYL]OCTADECANAMIDE PROPANOIC ACID, 2-HYDROXY-, DIMETHYL[(3-STEAROYLAMINO)PROPYL]AMMONIUM LACTATE, N,N-DIMETHYL-N-(3-STEARAMIDOPROPYL)AMINE, LACTATE, N,N-DIMETHYL-N-(3-STEARAMIDOPROPYL)AMINE, LACTATE, N,N-DIMETHYL-N-(3-STEARAMIDOPROPYL)AMINE, (.+-.)-LACTIC ACID SALT; (3-STEARAMIDOPROPYL)DIMETHYLAMI, PROPANOIC ACID, 2-HYDROXY-, COMPD. WITH N-[3-(DIMETHYLAMINO)PROPYL]OCTADECANAMIDE, PROPANOIC ACID, 2HYDROXY, COMPD. WITH N[3(DIMETHYLAMINO)PROPYL]OCTADECANAMIDE (1:1), STEARAMIDOPROPYL DIMETHYLAMINE LACTATE, STAEARAMIDE PROPYL DIMETHYLAMINE, Stearamidopropyl Dimethylamine（PKO-S）, N-(2-(Dimethylamino)-1-methylethyl)octadecanamide, Octadecanamide, N-[2-(dimethylamino)-1-methylethyl]-, Stearamidopropyl Dimethylamine, T/N: Unamide D150, Scercodine S Flaked, Jeechem S-13, Octadecanamide,N-[3-(dimethylamino)propyl]-, Dimethylaminopropyl stearamide, N-(3-(Dimethylamino)propyl)octadecanamide, Octadecanamide, N-(3-(dimethylamino)propyl)-, Octadecanoylamidopropyldimethylamine, Stearamidopropyldimethylamine, Stearic 3-dimethylaminopropylamide, Stearic acid, 3-dimethylaminopropylamide



Stearamidopropyl dimethylamine is an emulsifier and a surfactant with cleansing properties which is commonly used in hair care products to condition and improve the appearance of hair.
Stearamidopropyl dimethylamine was introduced as a replacement to silicones since they are not easily broken down, and this compound is biodegradable.


Stearamidopropyl dimethylamine appears as a yellowish, waxy flake.
Stearamidopropyl dimethylamine is a kind of amine compound, applicable in hair & cream product as a cationic conditioner.
Stearamidopropyl dimethylamine is often touted as an alternative to silicones.


Stearamidopropyl dimethylamine is water soluble, mixes well with others, and appears as a yellowish, waxy flake in its raw material form.
Typical usage levels of Stearamidopropyl dimethylamine range from 0.01-5%, which is within the parameters deemed safe by the Cosmetic Ingredient Review Expert Panel.


Stearamidopropyl dimethylamine is an ingredient in some types of hair conditioner.
Stearamidopropyl dimethylamine has antistatic, emulsifying, hair conditioning, and surfactant properties.
Stearamidopropyl dimethylamine is water soluble, readily biodegradable.


Stearamidopropyl dimethylamine is an ingredient in some types of hair conditioner.
Stearamidopropyl dimethylamine has antistatic, emulsifying, hair conditioning, and surfactant properties.
Stearamidopropyl dimethylamine is a white to light yellow waxy flakes.


Stearamidopropyl dimethylamine is a fatty amine derived from vegetable oils, used as a conditioning, detangling, and smoothing agent.
Stearamidopropyl dimethylamine is a cationic surfactant used as a substitute for silicones in hair care products.
Stearamidopropyl dimethylamine combines quite easily with the hair (negatively charged) to form a smooth film, but while not occlusive as a silicone.


Stearamidopropyl dimethylamine adheres to the fabric surface to reduce static electricity present.
Stearamidopropyl dimethylamine is a hair conditioner that becomes quaternary ammonium in acidic medium.
Given its unecological manufacturing process, Stearamidopropyl dimethylamine is not authorized in France but in Germany Yes (BDIH).


The Cosmetic Ingredient Review (CIR) concluded in 2014 the safety of Stearamidopropyl dimethylamine.
Stearamidopropyl dimethylamine is often touted as an alternative to silicones.
Stearamidopropyl dimethylamine is water soluble, mixes well with others, and appears as a yellowish, waxy flake in its raw material form.


Stearamidopropyl dimethylamine is a light yellow flake surfactant utilized in the production of hair care products, notably conditioners.
Stearamidopropyl dimethylamine's cationic character improves hair's wet and dry comability at an acidic pH.
Stearamidopropyl dimethylamine works efficiently as a secondary emulsifier in creams and lotions for the skin.


Some varieties of hair conditioner contain the chemical Stearamidopropyl dimethylamine.
Stearamidopropyl dimethylamine possesses surfactant, emulsifying, antistatic, and hair-conditioning qualities.
Stearamidopropyl dimethylamine is water soluble, quickly biodegradable, and barely hazardous to aquatic life.


Stearamidopropyl dimethylamine slows Moisture loss.
Stearamidopropyl dimethylamine reduces fly-aways.
Stearamidopropyl dimethylamine reduces tangles in your hair.


Improving the sensory profile of hair conditioning products, Stearamidopropyl dimethylamine delivers better smoothness and combing performance in the case of dry hair.
Stearamidopropyl dimethylamine is a safe, effective, and readily biodegradable ingredient.


Stearamidopropyl dimethylamine is one of the leading 'replacements' for silicones in conditioners (For Tresemme Naturals fans - this is the lead surfactant in your conditioner).
Stearamidopropyl dimethylamine is quite a mouthful, but don't worry, it's derived from vegetable oil.


Stearamidopropyl dimethylamine helps keep this conditioner blended properly and also helps prevent frizzy hair and flyaways.
Stearamidopropyl dimethylamine is a white to off-white flakes.
Stearamidopropyl dimethylamine is an amine compound, derived from vegetable sourced C-18 fatty acid.


Stearamidopropyl dimethylamine is a cationic-charged conditioner used in both leave-on and rinse-off applications.
Stearamidopropyl dimethylamine provides outstanding sensorial properties with exceptional detangling and conditioning in all hair types.
Stearamidopropyl dimethylamine appears as a yellowish, waxy flake.



USES and APPLICATIONS of STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine is mainly used as an emulsifier, and surfactant in cosmetics, particularly in hair care products.
Stearamidopropyl dimethylaminecan reduce static upon hair under acid conditions, and can be used as antistatic agent in hair care products.
Stearamidopropyl dimethylamine can be used as an emulsifier and surfactant (cleansing agent) in cosmetic formulations.


The majority of research on Stearamidopropyl dimethylamine pertains to its use in hair care, where it is praised for delivering antistatic/conditioning properties.
Stearamidopropyl dimethylamine may also be used as a texture-enhancing ingredient to build viscosity within a formulation.


Stearamidopropyl dimethylamine is used as a co-emulsifier in skin cream formulations or skin care formula.
Stearamidopropyl dimethylamine is characterized by a positive charge that can be attached to the hair or skin.
Stearamidopropyl dimethylamine can be used as an emulsifier and surfactant (cleansing agent) in cosmetic formulations.


The majority of research on Stearamidopropyl dimethylamine pertains to its use in hair care, where it is praised for delivering antistatic/conditioning properties.
Stearamidopropyl dimethylamine may also be used as a texture-enhancing ingredient to build viscosity within a formulation.


Stearamidopropyl dimethylamine is often touted as an alternative to silicones.
Stearamidopropyl dimethylamine is water soluble, mixes well with others, and appears as a yellowish, waxy flake in its raw material form.
Typical usage levels of Stearamidopropyl dimethylamine range from 0.01-5%


Stearamidopropyl dimethylamine functions as an antistatic ingredient as it alters the electrical properties of cosmetic raw materials or of human body surfaces (skin, hair, etc.) by reducing their tendency to acquire an electrical charge.
Antistatics are used as processing aids in the manufacture of cosmetic products and play a role in the formulation of hair products that prevent the condition commonly known as fly-away hair.


In addition Stearamidopropyl dimethylamine has emulsifying properties and acts as hair conditioner where it enhances the appearance and feel of hair, increases hair body or suppleness, facilitates combability and styling, improves gloss or sheen and improves the texture of hair, including hair that has been damaged by chemical or physical treatment.


Stearamidopropyl dimethylamine can be used as an auxiliary emulsifier in the process of producing creams in acidic conditions.
Stearamidopropyl dimethylamine makes the skin feel soft and silky.
Stearamidopropyl dimethylamine is used hair conditioners for both leave-on and rinse-off applications.


Stearamidopropyl dimethylamine is a cosmetic raw material and is meant for external use only in cosmetic formulations.
Stearamidopropyl dimethylamine is a multifunctional ingredient, a hair-conditioning agent, thickener, and emollient that appears as white to yellowish flakes.


Stearamidopropyl dimethylamine can be used İncorporated in hair care applications.
Stearamidopropyl dimethylamine improves wet and dry combing, polishes hair shine, reduces hair frizzy, and provides volume.
Ideal ingredient for stable and prosperous creamy formulations, Stearamidopropyl dimethylamine is compatible with anionic surfactants, provides a superior antistatic effect, and is effective with other quaternary salts.


After neutralization with an acid, Stearamidopropyl dimethylamine is an effective conditioning agent and can deliver a highly viscous conditioning system with good stability under high and freeze temperatures.
In hair cleansing applications, Stearamidopropyl dimethylamine is compatible with some anionic surfactants and increases viscosity.


Stearamidopropyl dimethylamine improves the wet feeling and conditioning effects of shampoo, as well.
In coloration products, Stearamidopropyl dimethylamine contributes as an emulsifier or thicker.
Stearamidopropyl dimethylamine can be used as an emulsifier and surfactant (cleansing agent) in cosmetic formulations.


The majority of research on Stearamidopropyl dimethylamine pertains to its use in hair care, where it is praised for delivering antistatic/conditioning properties.
Stearamidopropyl dimethylamine may also be used as a texture-enhancing ingredient to build viscosity within a formulation.


Stearamidopropyl dimethylamine is a conditioning agent and co-emulsifier.
Stearamidopropyl dimethylamine is electrostatically substantive & improves wet and dry combing.
Stearamidopropyl dimethylamine provides good static control and conditioning without build-up.


Stearamidopropyl dimethylamine functions as hair or skin conditioner and primary o/w emulsifier through partial neutralization.
As hair conditioner, Stearamidopropyl dimethylamine does not build-up and improves the substantivity of proteins and quaternary conditioners.
Stearamidopropyl dimethylamine can be used as a co-emulsifier in skin care product: for this use it should be incorporated in the oil phase; the pH of the water phase should be in the range of 6.5 to 5.5 when the phases are joined.


Additional acid can be added after the emulsion has been formed without affecting the stability of the system.
Stearamidopropyl dimethylamine is a conditioning agent and emulsifier for conditioning hair conditioners and cures.
Stearamidopropyl dimethylamine improves the wet and dry combability as well as the "grip" of the hair and reduces static charge.


Stearamidopropyl dimethylamine also acts effectively as a co-emulsifier in creams and gives a pleasant skin feel.
The concentration for use in hair conditioners and cures is 1-3% and in shampoos 0.5-2%.
In cosmetic products it is necessary to neutralise Stearamidopropyl dimethylamine by adding acids.


Necessary amount of acid for 1g Stearamidopropyl dimethylamine (ph 3.5-4.5)
Stearamidopropyl dimethylamine is an emulsifier based on palm oil which is mainly used in hair care products but can also be used in skin care.
Stearamidopropyl dimethylamine has a conditioning effect and leaves the hair anti-static, even after combing.


Stearamidopropyl dimethylamine is lightly moisturizing and gives hair care products a pleasant viscosity.
Stearamidopropyl dimethylamine is an emulsifier, conditioning agent and surfactant with cleansing properties which is commonly used in hair care products to condition and improve the appearance of hair.


Stearamidopropyl dimethylamine can be used in formulas as a replacement to silicones since they are not easily broken down, and is biodegradable.
Stearamidopropyl dimethylamine is used functions as a skin conditioner.
Stearamidopropyl dimethylamine is suitable for making no-build up products.


Stearamidopropyl dimethylamine improves the substantivity of proteins and quaternary conditioners,
Stearamidopropyl dimethylamine is used in shampoos or hair conditioners due to its antistatic effect.
Stearamidopropyl dimethylamine serves as a mild surfactant that removes dirt build-up from the hair.


Stearamidopropyl dimethylamine imparts a soft and silky feel to the hair, making it easier to comb through.
Stearamidopropyl dimethylamine possesses a positive charge which can help offset the negative charge from shampooing the hair.
Stearamidopropyl dimethylamine is used hair care.


-Hair care:
Stearamidopropyl dimethylamine is used in shampoos or hair conditioners due to its antistatic effect.
Stearamidopropyl dimethylamine serves as a mild surfactant that removes dirt build-up from the hair.

Stearamidopropyl dimethylamine imparts a soft and silky feel to the hair, making it easier to comb through.
Stearamidopropyl dimethylamine possesses a positive charge which can help offset the negative charge from shampooing the hair and is a cheaper alternative to other conditioners.

Stearamidopropyl dimethylamine does not suppress foam and can be used with anionic surfactants and also helps to build the viscosity of the formulation.
Stearamidopropyl dimethylamine is generally used at a maximum concentration of 0.01%-5%



FUNCTIONS OF STEARAMIDOPROPYL DIMETHYLAMINE IN COSMETIC PRODUCTS:
*ANTISTATIC
Stearamidopropyl dimethylamine reduces electrostatic charges (eg of the hair)

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

*SURFACTANT - CLEANSING
Surface-active agent to clean skin, hair and/or teeth

*SURFACTANT - EMULSIFYING
Stearamidopropyl dimethylamine allows the formation of finely dispersed mixtures of oil and water (emulsions)



ORIGIN OF STEARAMIDOPROPYL DIMETHYLAMINE:
animal/synthetic



STEARAMIDOPROPYL DIMETHYLAMINE AT A GLANCE:
*Stearamidopropyl dimethylamine is used as an emulsifier and surfactant (cleansing agent) in cosmetic formulations
*Popular in hair care, where it is praised for delivering antistatic/conditioning properties
*Stearamidopropyl dimethylamine can help build viscosity within a formulation
*Typical usage levels range from of 0.01-5% (deemed safe by the Cosmetic Ingredient Review)



FUNCTIONS OF STEARAMIDOPROPYL DIMETHYLAMINE:
*Antistatic :
Stearamidopropyl dimethylamine reduces static electricity by neutralizing electrical charge on a surface
*Emulsifying :
Stearamidopropyl dimethylamine promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Hair conditioning :
Stearamidopropyl dimethylamine leaves hair easy to comb, soft, soft and shiny and / or confers volume, lightness and shine
*Surfactant :
Stearamidopropyl dimethylamine reduces the surface tension of cosmetics and contributes to the even distribution of the product when it is used.



ORIGIN OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine is obtained by mixing together refined vegetable oils with 3,3-dimethylaminopropylamine (DMAPA) and heating the mixture.



WHAT DOES STEARAMIDOPROPYL DIMETHYLAMINE DO IN A FORMULATION?
*Antistatic
*Emulsifying
*Hair conditioning
*Surfactant



SAFETY PROFILE OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine has been deemed safe for use in cosmetics by the Cosmetic Ingredient Review (CIR) board, when they are formulated to be non-sensitizing.



ALTERNATIVES OF STEARAMIDOPROPYL DIMETHYLAMINE:
*OLEAMIDOPROPYL DIMETHYLAMINE,
*PALMITAMIDOPROPYL DIMETHYLAMINE,
*LAURAMIDOPROPYL DIMETHYLAMINE



FEATURES OF STEARAMIDOPROPYL DIMETHYLAMINE:
*Exceptional conditioning
*Instantaneous detangling
*High substantivity
*Good wet and dry after feel
*Anti-static agent
*Improved wet and dry detangling
*Co-emulsifier



FUNCTION OF STEARAMIDOPROPYL DIMETHYLAMINE:
Stearamidopropyl dimethylamine is an ingredient in some types of hair conditioner.


WHAT DOES STEARAMIDOPROPYL DIMETHYLAMINE DO IN SHAMPOO AND CONDITIONER?
As it is a surfactant Stearamidopropyl dimethylamine can to some extent help blend the oil and water components of conditioner.


HOW MUCH IS STEARAMIDOPROPYL DIMETHYLAMINE ADDED TO CONDITIONER?
Typically conditioner contains less than 5% Stearamidopropyl dimethylamine.


IS STEARAMIDOPROPYL DIMETHYLAMINE A MAJOR COMPONENT OF HAIR CONDITIONER?
Stearamidopropyl dimethylamine is usually within the top 5 ingredients if present in a conditioner



STEARAMIDOPROPYL DIMETHYLAMINE, ACTION ON HAIR:
Does Stearamidopropyl dimethylamine do anything to hair itself:
1. Stearamidopropyl dimethylamine binds (adsorbs) to the surface of hair
2. Stearamidopropyl dimethylamine's positive charge helps correct the negative charge from shampooing.
3. Stearamidopropyl dimethylamine gives slip to hair without causing excessive build up because it is water soluble unlike oils or silicone
4. Stearamidopropyl dimethylamine helps to smooth the cuticle and prevent static build up (flyaways!).



DO STEARAMIDOPROPYL DIMETHYLAMINE PENETRATE HAIR?
Stearamidopropyl dimethylamine is not known to.



IS STEARAMIDOPROPYL DIMETHYLAMINE BETTER THAN SILICONE FOR DETANGLING AND SLIP?
Not necessarily.
Some people may find a silicone free conditioner with Stearamidopropyl dimethylamine good enough but others will not.
Stearamidopropyl dimethylamine is up to the consumer (i.e you) to test it.



FUNCTIONS OF STEARAMIDOPROPYL DIMETHYLAMINE:
*Anti-static,
*emulsification,
*hair conditioning,
*skin conditioning
*Hair conditioning
*Thickener
*Emollient
*Viscosity controlling agent
*Stabiliser



HOW TO USE STEARAMIDOPROPYL DIMETHYLAMINE?
Add to the oil or emulsifier phase of the formula.
Stearamidopropyl dimethylamine may increase pH to 10 or above.
Adjust the pH of the water phase to 3-4 before adding the oil or emulsifier phase.
The final pH should be between 3.5-6.5.
It is recommended to use an organic acid as a buffer solution, preferably lactic acid.



PHYSICAL and CHEMICAL PROPERTIES of STEARAMIDOPROPYL DIMETHYLAMINE:
Boiling Point: 208-215°C
Melting Point: 49-50°C
Solubility: Soluble in water
Molecular Weight: 368.6 g/mol
XLogP3-AA: 8.3
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 2
Rotatable Bond Count: 20
Exact Mass: 368.376664159 g/mol
Monoisotopic Mass: 368.376664159 g/mol
Topological Polar Surface Area: 32.3Ų
Heavy Atom Count: 26
Formal Charge: 0
Complexity: 292
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
INCI Name: Stearamidopropyl Dimethylamine
Chemical Class: Amidoamines, etc.
CAS Number: 7651-02-7
EINECS: 231-609-1
Appearance: Slightly yellow to pale yellow powder
Boiling point: 490.6±28.0 °C(Predicted)
Density: 0.874±0.06 g/cm3(Predicted)
pka: 15.89±0.46(Predicted)
FDA UNII: ZJ804046KO



FIRST AID MEASURES of STEARAMIDOPROPYL DIMETHYLAMINE:
-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:
Never give anything by mouth to an unconscious person.
Rinse mouth with water.
-Indication of any immediate medical attention and special treatment needed:
No data available



ACCIDENTAL RELEASE MEASURES of STEARAMIDOPROPYL DIMETHYLAMINE:
-Environmental precautions:
Do not let product enter drains.
-Methods and materials for containment and cleaning up:
Keep in suitable, closed containers for disposal.



FIRE FIGHTING MEASURES of STEARAMIDOPROPYL DIMETHYLAMINE:
-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 STEARAMIDOPROPYL DIMETHYLAMINE:
-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.
*Body Protection:
Impervious clothing
*Respiratory protection:
Respiratory protection not required.
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of STEARAMIDOPROPYL DIMETHYLAMINE:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Store in cool place.
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.



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

Stearamidopropyl dimethylamine stearate is a chemical compound and has a chemical formula of C₄₁H₈₄N₂O₃.
Stearamidopropyl dimethylamine stearate's Characteristics are excellent emulsifying, dispersing, antirust, antistatic, anticorrosive, and lubricating abilities.
Stearamidopropyl dimethylamine stearate is an ingredient in some types of hair conditioner.


CAS Number: 127358-77-4
EC Number: 231-609-1
Molecular Formula: C41H84N2O3


Stearamidopropyl dimethylamine stearate has antistatic, emulsifying, hair conditioning, and surfactant properties.
Stearamidopropyl dimethylamine stearate is water soluble, readily biodegradable.
Stearamidopropyl dimethylamine stearate is a stearamidopropyl dimethyl amine complexed with stearic acid;
it is derived from a natural source (rape seed oil).


Stearamidopropyl dimethylamine stearate is a stearamidopropyl dimethylamine complexed with stearic acid.
Stearamidopropyl dimethylamine stearate is derived from a natural source (rapeseed oil).
Stearic Acid can have animal or plant sources.



USES and APPLICATIONS of STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
Stearamidopropyl dimethylamine stearate is used hair conditioning agent , antistatic agent , emulsifier.
Stearamidopropyl dimethylamine stearate may or may not be vegan.
Stearamidopropyl dimethylamine stearate is an Ammonia compound of Stearic Acid, used in cosmetics as an emulsifier and hair conditioner.


Because this product is cationic, Stearamidopropyl dimethylamine stearate is very substantive and forms a monomolecular layer on the substrate.
Some of the commonly recommended applications of Stearamidopropyl dimethylamine stearate include skin creams and lotions, hair care products such as shampoos and hair conditioners, shaving creams, liquid soaps and soap bars.


The combination of the moieties has a carbon chain length of 36, which makes Stearamidopropyl dimethylamine stearate an excellent conditioner.
Stearamidopropyl dimethylamine stearate is also used as a cationic emulsifier.
Stearamidopropyl dimethylamine stearate is used as antistatic agent; Hair Conditioning Agent.


-Cosmetic Uses of Stearamidopropyl dimethylamine stearate:
*antistatic agents
*hair conditioning
*surfactant - emulsifying


-Typical applications of Stearamidopropyl dimethylamine stearate:
*Use as antistatic agent.
*Use as dispersing agent, emulsifying agent.
*Use as lubricant, corrosion inhibitor.


-Personal care products:
Antistatic agent, conditioning agent, emulsifying agent in personal care products.
-Anti-rust oil (grease):
Corrosion inhibitor, antirust agent in anti-rust oil (grease).



WHAT DOES STEARAMIDOPROPYL DIMETHYLAMINE STEARATE DO IN A FORMULATION?
*Antistatic
*Emulsifying
*Hair conditioning



FUNCTIONS OF STEARAMIDOPROPYL DIMETHYLAMINE STEARATE IN COSMETIC PRODUCTS:
*ANTISTATIC:
Stearamidopropyl dimethylamine stearate reduces electrostatic charges (e.g. on the hair)

*HAIR CONDITIONING:
Stearamidopropyl dimethylamine stearate makes hair easier to comb, supple, soft and shiny and gives it volume

*TENSID (EMULSIFYING) - EMULGATOR:
Stearamidopropyl dimethylamine stearate allows the formation of finely divided mixtures of oil and water (emulsions)



FUNCTIONS OF STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
*Antistatic:
Stearamidopropyl dimethylamine stearate reduces static electricity by neutralizing the electrical charge on a surface
*Emulsifying agent:
Stearamidopropyl dimethylamine stearate promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Hair conditioner:
Stearamidopropyl dimethylamine stearate leaves hair easy to comb, supple, soft and shiny and/or gives volume, lightness and shine



BACKGROUND INFORMATION ON USE IN COSMETICS:
Emulsifiers are often used as auxiliary substances in cosmetics.
They make it possible to bring components that are actually not miscible with each other, such as oil and water, into a permanently stable emulsion.
In cosmetic products, both aqueous and oily care and active ingredients can be used in a single product.
Emulsifiers are able to do this because their molecules consist of a fat-loving (lipophilic) and a water-loving (hydrophilic) part.
This allows them to reduce the interfacial tension that actually exists between two incompatible substances such as fat and water.
Emulsifiers are used in particular for creams, lotions and cleaning agents.
In the meantime, however, emulsifiers are much more than just auxiliary substances that keep an emulsion stable fatty acid esters based on sugar.



PHYSICAL and CHEMICAL PROPERTIES of STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
Molecular Weight: 653.1
Hydrogen Bond Donor Count: 2
Hydrogen Bond Acceptor Count: 4
Rotatable Bond Count: 36
Exact Mass: 652.64819455
Monoisotopic Mass: 652.64819455
Topological Polar Surface Area: 69.6 Ų
Heavy Atom Count: 46
Formal Charge: 0
Complexity: 494
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
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No



FIRST AID MEASURES of STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
-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 STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
-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 STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
-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:
Prevent fire extinguishing water from contaminating surface water or the ground water system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
-Control parameters:
--Ingredients with workplace control parameters:
-Exposure controls:
--Personal protective equipment:
*Eye/face protection:
Use equipment for eye protection.
Safety glasses.
*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
-Control of environmental exposure:
Do not let product enter drains.



HANDLING and STORAGE of STEARAMIDOPROPYL DIMETHYLAMINE STEARATE:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry.
*Storage class:
Storage class (TRGS 510):
Non Combustible Solids



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



SYNONYMS:
Octadecanamide, N-(3-dimethylaminopropyl)-, octadecanoate
Catemol S180-S
127358-77-4
STEARAMIDOPROPYL DIMETHYLAMINE STEARATE
MP84D73N0X
Stearamidopropyl dimethylamine stearate
Octadecanamide, N-(3-(dimethylamino)propyl)-, monooctadecanoate
Octadecanoic acid, compd. with N-(3-(dimethylamino)propyl)octadecanamide (1:1)
Octadecanoic acid, compd. with N-[3-(dimethylamino)propyl]octadecanamide (1:1)
UNII-MP84D73N0X
SCHEMBL428972
DTXSID60155500
Q27284160
N-[3-(Dimethylamino)propyl]octadecanamide
N-(3-Dimethylaminopropyl)octadecanamide
127358-77-4
CATEMOL S180-S
OCTADECANAMIDE, N-(3-(DIMETHYLAMINO)PROPYL)-, MONOOCTADECANOATE
OCTADECANOIC ACID, COMPD. WITH N-(3-(DIMETHYLAMINO)PROPYL)OCTADECANAMIDE (1:1)
STEARAMIDOPROPYL DIMETHYLAMINE STEARATE
Octadecanamide, N-(3-dimethylaminopropyl)-, octadecanoate

octadecanamide, N-[3-(dimethylamino)propyl]-; stearamidopropyl dimethyl amine; stearic 3-dimethylaminopropylamide; diethyl aminopropyl stearamide CAS NO:7651-02-7

1H-Imidazolium; 1-ethenyl-3-methyl-; methyl sulfate, polymer with 1-ethenylhexahydro-2H-azepin-2-one and 1-ethenyl-2-pyrrolidinone; cas no: 174761-16-1

AMMONIUM STEARATE, N° CAS : 1002-89-7, Stéarate d'ammonium, Nom INCI : AMMONIUM STEARATE. Nom chimique : Ammonium stearate. N° EINECS/ELINCS : 213-695-2. Ammonium stéarate d'; Octadecanoic acid ammonium salt; Octadecanoic acid, ammonium salt; Sel d'ammonimum de l'acide octadécanoïque; Stearic acid ammoniumsalt; Stéarate d'ammonium, Noms anglais : Ammonium stearate; Stearic acid, ammonium salt. Utilisation : Fabrication de cosmétiques et de matériaux de construction. Additif alimentaire : E571. 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. 1002-89-7; ammonium octadecanoate; azanium;octadecanoate 213-695-2 [EINECS] Acide octadécanoïque, ammoniate Ammonium Stearate Octadecanoic acid ammoniate Octadecanoic acid, ammonium salt Octadecansäureammoniat [German] [1002-89-7] ammonium octadecanoate ammonium stearate AMMONIUM STEARATE|AMMONIUM OCTADECANOATE Ammoniumstearate azanium and octadecanoate azanium octadecanoate Stearic acid 1-monoglyceride STEARIC ACID AMINE Stearic acid, ammonium salt

Inci : butyl stearate, Cas : 85408-76-0 / 123-95-5 , EC : 287-039-9 / 204-666-5 & 203-829-8, Butyl stéarate, Octadecanoate de butyle, Formule brute C22H44O2,Masse moléculaire (M) 340,60 g/mol, Densité (D) 0,86 g/cm³, BUTYL STEARATE, N° CAS : 123-95-5, Nom chimique : Butyl stearate, N° EINECS/ELINCS : 204-666-5, Emollient : Adoucit et assouplit la peau Agent masquant : Réduit ou inhibe l'odeur ou le goût de base du produit, Agent d'entretien de la peau : Maintient la peau en bon état. butyl hexadecanoate butyl octadecanoate; Butyl stearate ; Fatty acids C16-18 (even numbered) ester with alcohol C4 (1-Butanol) ;Fatty Acids, C16-18 (even numbered) butyl ester; n-butyl stearate

BUTYL STEARATE, N° CAS : 123-95-5, Nom INCI : BUTYL STEARATE, Nom chimique : Butyl stearate, N° EINECS/ELINCS : 204-666-5, Emollient : Adoucit et assouplit la peau, Agent masquant : Réduit ou inhibe l'odeur ou le goût de base du produit. Agent d'entretien de la peau : Maintient la peau en bon état. Noms français : BUTYL OCTADECANOATE;BUTYL OCTADECYLATE;BUTYL STEARATE; N-BUTYL OCTADECANOATE; N-BUTYL STEARATE; OCTADECANOATE DE BUTYLE NORMAL; OCTADECANOIC ACID BUTYL ESTER;OCTADECANOIC ACID, BUTYL ESTER OCTADECYLATE DE BUTYLE; STEARATE DE BUTYLE; STEARATE DE BUTYLE NORMAL; STEARIC ACID, BUTYL ESTER. Utilisation : Agent plastifiant, additif alimentaire. Butyl stearate ;N-Butyl stearate; stearic acid, butyl ester; (4-anilino-1-naphthyl){bis[4-(dimethylamino)phenyl]}methanol; butyl octadecanoate

CALCIUM STEARATE, N° CAS : 1592-23-0, Nom INCI : CALCIUM STEARATE, Nom chimique : Calcium distearate, N° EINECS/ELINCS : 216-472-8, Classification : Règlementé. Noms français :Calcium octadecanoate; Octadecanoic acid, calcium salt; Octadécanoate de calcium; Sel calcique de l'acide octadécanoïque; Sel calcique de l'acide stéarique; Sel dicalcique de l'acide; octadécanoïque; Sel dicalcique de l'acide stéarique; Stéarate de calcium. Noms anglais : Calcium stearate; Stearic acid, calcium salt. Commentaires: La préparation commerciale peut contenir du palmiate de calcium. Utilisation et sources d'émission Stabilisant, fabrication de cosmétiques; Calcium distearate; Octadecanoic acid, calcium salt (2:1); calcium dioctadecanoate; calcium :octadecanoate; Calcium bis(stearate) Calcium dioctadecanoate Calcium distearate Calcium octadecanoate Calcium stearate [JAN] [JP15] [NF] [Wiki] Calciumdioctadecanoat [German] Calstar [] Dioctadécanoate de calcium [French] MFCD00036390 [MDL number] MFCD03940293 Octadecanoic acid calcium salt OCTADECANOIC ACID, CALCIUM SALT Octadecanoic acid, calcium salt (2:1) [ACD/Index Name] stearic acid calcium salt Stearic acid, calcium salt (OCTADECANOYLOXY)CALCIO OCTADECANOATE Aquacal CALCIUM BIS(N-OCTADECANOATE) calcium bis(octadecanoate) Calcium Stearate (technical grade) Calcium stearate [JAN] Calcium Stearate FCC Kosher Calcium Stearate NF/FCC Calcium stearate, non-animal origin CALCIUM STEARATE|CALCIUM DIOCTADECANOATE calciumstearate

GLYCERYL STEARATE, N° CAS : 31566-31-1 - Stéarate de glycérole, Autres langues : Estearato de glicerilo, Gliceril stearato, Glycerylstearat. Nom INCI : GLYCERYL STEARATE. N° EINECS/ELINCS : 250-705-4/286-490-9. Classification : Tensioactif non ionique. Le stearate de glycérol est utilisé en tant qu'émulsifiant non ionique ou émollient dans les produits cosmétiques. Il est très employé dans les soins hydratants et on le retrouve aussi dans les soins capillaires pour ses propriétés antistatiques. C'est un dérivé d'huile de palme. Il est autorisé en bio.Ses fonctions (INCI). Emollient : Adoucit et assouplit la peau. Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Noms français : GLYCEROL MONOOCTADECANOATE; GLYCEROL MONOSTEARATE; GLYCERYL MONOSTEARATE; Monostéarate de glycéryle; OCTADECANOIC ACID, MONOESTER WITH 1,2,3-PROPANETRIOL; STEARATE DE DIHYDROXY-2,3 PROPYLE; STEARIC ACID, MONOESTER WITH GLYCEROL; STEARIC MONOGLYCERIDE. Utilisation: Agent épaississant, fabrication de produits pharmaceutiques 1,3-Dihydroxy-2-propanyl stearate [ACD/IUPAC Name] 1,3-Dihydroxy-2-propanylstearat [German] [ACD/IUPAC Name] 1,3-dihydroxypropan-2-yl octadecanoate 1,3-Dihydroxypropan-2-yl stearate 1799576 1-Glyceryl stearate 250-705-4 [EINECS] 2-hydroxy-1-(hydroxymethyl)ethyl octadecanoate 2-hydroxy-1-(hydroxymethyl)ethyl stearate 2-Monostearin 2-Monostearoylglycerol 2-octadecanoylglycerol 2-stearoylglycerol 621-61-4 [RN] Glycerin monostearate Glycerol monostearate GLYCEROL STEARATE Glycerol β-monostearate GLYCERYL 2-STEARATE MFCD25974054 Octadecanoic acid 2-hydroxy-1-(hydroxymethyl)ethyl ester Octadecanoic acid, 2-hydroxy-1-(hydroxymethyl)ethyl ester [ACD/Index Name] Octadecanoic acid, monoester with 1,2,3-propanetriol Stéarate de 1,3-dihydroxy-2-propanyle [French] [ACD/IUPAC Name] β-Monostearin [2-hydroxy-1-(hydroxymethyl)ethyl] octadecanoate 1,2,3-Propanetriol 2-octadecanoyl ester 119912-07-1 [RN] 1-Monoacylglyceride 1-Monoacylglycerol 2JT 2-octadecanoyloxy-propane-1,3-diol 2-Octadecanoyl-rac-glycerol 2-octadecanoyl-sn-glycerol 2-Stearoyl-glycerol 2-stearoyloxy-propane-1,3-diol 2-Stearoyl-rac-glycerol 31566-31-1 [RN] 593-29-3 [RN] b-Monoacylglycerol EINECS 209-786-1 glycerine monostearate Glycerol β-sterate Glycerol-β-monostearate glyceryl monostearate GLYCERYL STEARATE SE Monostearin namatsit octadecanoic acid [2-hydroxy-1-(hydroxymethyl)ethyl] ester Octadecanoic acid, potassium salt Potassium n-octadecanoate potassium octadecanoate Potassium stearate [ACD/IUPAC Name] Potassium stearate, pure Steadan 300 stearic acid (2-hydroxy-1-methylol-ethyl) ester Stearic acid β-monoglyceride Stearic acid, monoester with glycerol Stearic Acid, Potassium Salt Stearin, 2-mono- UNII-230OU9XXE4 β-Glyceryl monostearate β-Monoacylglycerol β-Monostearin. Octadecanoic acid, monoester with 1,2,3-propanetriol Stearic acid, monoester with glycerol EC Inventory, 1,3-dihydroxypropan-2-yl octadecanoate 2,3-dihydroxypropyl octadecanoate 2-hydroxy-1-(hydroxymethyl)ethyl stearate Glycerol monostearate; GMS Glyceryl Monostearate Glyceryl stearate GMS Stearic Acid, monoester with glycerol (glycerol monostearate) Trade names Dimodan Ekömul Flex Series GLYCERIN STEARATE Grindsted Kemester 150V Kemester 84 Vegetable Kemester 84V Kemester MST MASESTER GMS 40-NSE MASESTER GMS 50 MASESTER GMS 60

Le Stéarate de Glycérol AE aide à former des émulsions en réduisant la tension superficielle des substances à émulsionner.Comparativement au Stéarate de Glycérol, le Stéarate de Glycérol AE ne nécessite pas de co-émulsifiant pour obtenir une formule stable. Toutefois, vous pouvez employer un co-émulsifiant ou un épaississant tel un alcool gras ou une gomme pour renforcer la stabilité de votre formule, notez cependant que l'émulsion continue d'épaissir quelques heures après formulation.Le Stéarate de Glycérol AE convient aux peaux mixtes, grasses et déshydratées. Applications:Crèmes, lotions, Beurres et crèmes corporels shampoing, après-shampoing, "leave in" gels, soins nettoyants pour la peau, produits capillaires. maquillage, fond de teint, mascara, eye line, ombre à paupières...Produits solaires. Aspect: poudre blanche avec une odeur légère. Synonyme : Stearic acid, monoester with glycerol; 1,3-dihydroxypropan-2-yl octadecanoate 2,3-dihydroxypropyl octadecanoate; 2,3-dihydroxypropyl octadecanoate; 2-hydroxy-1-(hydroxymethyl)ethyl stearate; Glycerol monostearate; GMS; Glyceryl Monostearate; Glyceryl stearate; GMS; Stearic Acid, monoester with glycerol (glycerol monostearate); GLYCERIN STEARATE; Kemester Dosage : 6 à 8%, en phase huileuse. HLB: 5.8 Classé comme anionique. Fourchette de pH à respecter: 4.5 à 9.0, évitez les agents chélateurs, acides et cationiques. Point de Fusion: 56 à 60°C Solubilité dans l'eau : Insoluble. Soluble dan l'eau chaude, huiles, solvants organiques. Autres données : Forme une émulsion en présence de l'eau. Dispersants de pigments. INCI: glyceryl stearate SE (ou AE = auto-émulsionnant)

MAGNESIUM STEARATE. N° CAS : 557-04-0 - Stéarate de magnésium. Autres langues : Estearato de magnesio, Magnesiumstearat, Stearato di magnesio. Nom INCI : MAGNESIUM STEARATE, Nom chimique : Magnesium distearate. N° EINECS/ELINCS : 209-150-3. Additif alimentaire : E572. Ses fonctions (INCI). Anti Agglomérant : Permet d'assurer la fluidité des particules solides et de limiter leur agglomération dans des produits cosmétiques en poudre ou en masse dure. Agent de foisonnement : Réduit la densité apparente des cosmétiques. Colorant cosmétique : Colore les cosmétiques et/ou confère une couleur à la peau. Hydratant : Augmente la teneur en eau de la peau et aide à la maintenir douce et lisse. Dibasic magnesium stearate; Magnesium distearate; Magnesium distearate, pure; Magnesium octadecanoate; Magnesium stearate; NS-M (salt); Octadecanoic acid, magnesium salt; Octadecanoic acid, magnesium salt (2:1); Petrac MG 20NF; SM 1000; SM-P; Stearic acid, magnesium salt; Synpro 90; Synpro Magnesium Stearate 90; magnesium dioctadecanoate; magnesium(2+) dioctadecanoate; magnesium(2+) ion bis(octadecanoate) ; Magnesium(II) Stearate; magnesium;octadecanoate; Magnézium-sztearát; 209-150-3 [EINECS]; 3919702 [Beilstein]; 557-04-0 [RN]; 70097M6I30; Dibasic magnesium stearate; Dioctadécanoate de magnésium [French] [ACD/IUPAC Name];Magnesium dioctadecanoate [ACD/IUPAC Name]; MAGNESIUM OCTADECANOATE; Magnesium stearate; Magnesiumdioctadecanoat ; MFCD00036391 [MDL number]; OCTADECANOIC ACID MAGNESIUM SALT; Octadecanoic acid, magnesium salt; Octadecanoic acid, magnesium salt ; stearic acid magnesium salt; Stearic acid, magnesium salt; synpro 90; Synpro Magnesium Stearate 90; WI4390000; (OCTADECANOYLOXY)MAGNESIO OCTADECANOATE; [557-04-0]; 212132-26-8 [RN]; EINECS 209-150-3; magnesium distearate; Magnesium Stearate NF; Magnesium Stearate NF EP FCC ; Magnesium stearate, EP, USP grade; MAGNESIUM(2+) DIOCTADECANOATE; MAGNESIUM(2+) ION BIS(N-OCTADECANOATE); magnesium(2+) ion bis(octadecanoate); Magnesium(II) Stearate; magnesiumstearate; Petrac MG 20NF; SM-P; 硬脂酸镁 [Chinese]

Octadecanoic acid, potassium salt; potassium octadecanoate ; potassium;octadecanoate; POTASSIUM STEARATE, N° CAS : 593-29-3 - Stéarate de potassium, Origine(s) : Végétale, Synthétique. Nom INCI : POTASSIUM STEARATE. N° EINECS/ELINCS : 209-786-1. Classification : Tensioactif anionique. Le stéarate de potassium est un sel de potassium de l'acide stéarique. C'est en fait un savon obtenu par saponification (avec de la potasse) d'huiles végétales. On le trouve dans certains produits de bains, mousses à raser ou soin capillaire, mais finalement assez peu dans les cosmétiques. Il est autorisé en bio.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. 209-786-1 [EINECS] 593-29-3 [RN] Kaliumstearat [German] [ACD/IUPAC Name] Octadecanoic acid potassium salt Octadecanoic acid, potassium salt Octadecanoic acid, potassium salt (1:1) [ACD/Index Name] Potassium n-octadecanoate potassium octadecanoate Potassium stearate [ACD/IUPAC Name] Stéarate de potassium [French] [ACD/IUPAC Name] STEARIC ACID POTASSIUM SALT Stearic Acid, Potassium Salt [593-29-3] 352438-86-9 [RN] 352438-89-2 [RN] EINECS 209-786-1 MFCD00072385 OCTADECANOIC ACID, POTASSIUM SALT-2,2-D2 OCTADECANOIC ACID, POTASSIUM SALT-D35 Potassium stearate (a mixture of stearate and palmitate) Potassium stearate (a mixture of stearate and palmitate), Technical grade Potassium stearate (mixture of stearate and palmitate) POTASSIUM STEARATE|POTASSIUM OCTADECANOATE Steadan 300 Stearic acid 1-monoglyceride

synonyme : Stearate de MPG, Inci : propylene glycol stearate, Cas : 1323-39-3 ou 91031-35-5, EC : 215-354-3 ou 292-936-3, N° CAS : 1323-39-3 / 142-75-6, Mélange de mono et de diesters de l’acide stéarique et du propylène glycol, Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale. Opacifiant : Réduit la transparence ou la translucidité des cosmétiques, EINECS/ELINCS : 215-354-3 / 205-557-5, Agent d'entretien de la peau : Maintient la peau en bon état Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation

STEARETH-1 Nom INCI : STEARETH-1 Classification : Composé éthoxylé Ses fonctions (INCI) 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

Steareth-21 is a compound belonging to the class of chemicals known as polyethylene glycols (PEG) that are derived from stearic acid.
Specifically, Steareth-21 is a polyethylene glycol ether of stearyl alcohol.
Steareth 21 is a surfactant and emulsifying agent commonly used in the formulation of cosmetic and personal care products.



APPLICATIONS


Steareth-21 finds extensive applications in the cosmetic and personal care industry.
Steareth 21 serves as a versatile ingredient in various formulations, contributing to the effectiveness and sensory characteristics of the end products.
Steareth 21 is often used as an emulsifying agent, enhancing the stability of creams, lotions, and emulsions.
Its nonionic nature makes it compatible with a wide range of other cosmetic ingredients, facilitating easy formulation.

The surfactant properties of Steareth-21 make it valuable in skincare products, where it aids in the dispersion of oils and contributes to a smooth texture upon application.
Its emulsifying capabilities extend to hair care products, such as shampoos and conditioners, improving the overall texture and manageability of hair.
Steareth-21 is appreciated for its mildness, making it suitable for formulations designed for sensitive skin.
Steareth 21 is often included in non-comedogenic formulations, catering to individuals with acne-prone skin.

Its incorporation in cleansing products enhances the emulsification and removal of dirt and oils during the cleansing process.
Due to its cost-effectiveness and efficacy, Steareth-21 is favored in the development of various cosmetic and personal care items.
Steareth 21 contributes to the moisturizing properties of skincare formulations, leaving the skin hydrated and supple.

In bath and body products, Steareth-21 enhances the spreadability and overall sensory experience.
Its use in hair care extends to styling products, where it aids in the uniform distribution of active ingredients.
Steareth-21's film-forming properties contribute to the retention of moisture on the skin's surface.

When used in combination with other surfactants, Steareth 21 can provide synergistic effects, optimizing the performance of formulations.
Steareth 21's stability over a range of pH levels expands its application possibilities in diverse formulations.
Its easy incorporation into formulations simplifies the manufacturing process for cosmetic products.

Steareth-21 is known to improve the rheological properties of formulations, influencing their thickness and consistency.
Its presence in sunscreen formulations aids in the even distribution of UV filters.
In antiperspirant and deodorant formulations, it assists in the dispersion of active ingredients.

Steareth 21's environmental considerations make it a suitable choice for formulations aiming for eco-friendly attributes.
Steareth-21's regulatory approval ensures its safe use in accordance with industry standards.
Its nonionic nature contributes to formulations that are more environmentally friendly.

Steareth 21's versatile applications span across skincare, hair care, bath and body products, and various cosmetic formulations.
Its incorporation in facial cleansers enhances the removal of makeup and impurities.
Steareth 21's synergy with other ingredients allows formulators to achieve specific performance characteristics in their products.
Steareth-21 plays a crucial role in the development of cosmetic and personal care items, contributing to their efficacy, stability, and sensory attributes.

Steareth-21 is frequently utilized in the production of facial cleansers, where its emulsifying properties enhance the removal of makeup and impurities from the skin.
Its incorporation in moisturizing creams contributes to the cream's stability and provides a silky texture upon application.

In anti-aging formulations, Steareth-21 aids in the dispersion of active ingredients, promoting even distribution for enhanced efficacy.
Shampoos containing Steareth-21 benefit from its emulsifying capabilities, ensuring uniform distribution of cleansing and conditioning agents.

Hair conditioners leverage Steareth-21 to improve the spreadability of conditioning agents, enhancing the overall softness and manageability of hair.
Steareth 21 is favored in the formulation of body lotions, where it contributes to the lotion's texture and assists in the absorption of moisturizing agents.
Steareth-21 is a valuable component in sunscreens, where it aids in the dispersion of UV filters for uniform protection against sun exposure.

In the creation of perfumed body mists, Steareth-21 assists in the even distribution of fragrance components, providing a consistent and pleasant scent.
Its use in baby care products, such as diaper creams, enhances the spreadability of protective formulations for gentle application on sensitive skin.

Steareth-21 is employed in the formulation of acne treatments, where its non-comedogenic properties make it suitable for products targeting blemish-prone skin.
Steareth 21's stability over various temperatures and environmental conditions makes it suitable for use in diverse geographical regions.

Steareth-21 contributes to the luxurious feel of high-end skincare products, providing a smooth and velvety texture to creams and serums.
Its application in hand creams enhances the product's moisturizing effects and ensures quick absorption without leaving a greasy residue.

Steareth-21 plays a role in the formulation of self-tanning products, aiding in the even distribution of tanning agents for a natural and streak-free tan.
In the development of color cosmetics, such as foundations and BB creams, Steareth-21 contributes to the products' texture and facilitates the blending of pigments.
Steareth-21 is found in aftershave lotions, where it helps in the even dispersion of soothing and moisturizing agents for post-shaving comfort.

Steareth 21 is utilized in the formulation of depilatory creams, ensuring the uniform spread of hair removal agents for effective results.
Steareth-21's nonionic nature makes it compatible with a variety of botanical extracts, enhancing the formulation of natural and organic skincare products.

In the creation of bubble baths and shower gels, Steareth-21 contributes to the formation of stable emulsions for a luxurious bathing experience.
Steareth-21's role in the formulation of exfoliating scrubs ensures the uniform distribution of exfoliating particles for effective skin renewal.
Steareth 21 is employed in the development of pre-shave oils, enhancing the glide of the razor for a smoother shaving experience.

Steareth-21's versatility allows its use in the formulation of both oil-in-water and water-in-oil emulsions, expanding its application possibilities.
Steareth 21's incorporation in night creams supports the skin's overnight regeneration process, providing hydration and nourishment.

Steareth-21's presence in lip balms assists in the even distribution of moisturizing agents, preventing chapping and dryness.
In the formulation of mattifying primers, Steareth-21 contributes to the product's texture, creating a smooth base for makeup application while controlling shine.

Steareth-21 is a key component in the formulation of tinted moisturizers, providing a lightweight and evenly distributed coverage for a natural look.
Its use in eye creams contributes to the smooth application of the product, aiding in the reduction of puffiness and dark circles.
Steareth 21 is employed in the creation of facial masks, enhancing the spreadability of active ingredients for a revitalizing skincare experience.

Steareth-21 is found in hair styling creams, where it helps distribute styling agents evenly for enhanced hold and manageability.
Its incorporation in body scrubs ensures uniform exfoliation, promoting smoother and softer skin texture.
Steareth-21 is utilized in the formulation of skin serums, enhancing the absorption of potent antioxidants and anti-aging ingredients.
In the creation of natural deodorants, Steareth-21 contributes to the formulation's texture and aids in the dispersion of odor-neutralizing agents.
Steareth 21 is present in foot creams, where it facilitates the even distribution of moisturizing ingredients for soft and refreshed feet.

Steareth-21 is utilized in the production of soothing balms, providing a smooth application for targeted relief of dry or irritated skin.
Its use in hand sanitizers contributes to the even spread of disinfecting agents for effective hand hygiene.

Steareth-21 is found in the formulation of skin primers, creating a smooth canvas for makeup application and extending the wear of cosmetics.
Its incorporation in gel-based skincare products ensures a lightweight and non-greasy feel upon application.
Steareth-21 plays a role in the formulation of skin cleansers, aiding in the emulsification and removal of impurities for a refreshed complexion.
Steareth 21 is used in the development of anti-cellulite creams, contributing to the even distribution of active ingredients for targeted results.

Steareth-21 is employed in the creation of skincare toners, enhancing the even absorption of toning agents for balanced and refreshed skin.
Its use in leave-in hair conditioners assists in the uniform distribution of conditioning agents, promoting detangling and manageability.

Steareth-21 is present in skincare ampoules, ensuring the effective delivery of concentrated serums for targeted skincare benefits.
Steareth 21 is utilized in the formulation of hand washes, contributing to the emulsification of cleansing agents for thorough hand hygiene.

Steareth-21 is found in the creation of sunless tanning lotions, aiding in the even distribution of tanning agents for a natural-looking tan.
Its use in shaving creams enhances the glide of the razor, reducing friction and irritation for a smoother shave.

Steareth-21 is employed in the formulation of skin-repair creams, aiding in the absorption of healing and regenerative ingredients.
Steareth 21 is utilized in the creation of lightweight body oils, providing a non-greasy and easily absorbed moisturizing experience.
Steareth-21 is found in the formulation of skin-firming creams, contributing to the smooth application of ingredients for improved skin elasticity.

Its use in scalp treatments assists in the even distribution of nourishing agents for a healthy and revitalized scalp.
Steareth-21 is present in the creation of makeup removers, facilitating the emulsification and removal of makeup for effective cleansing.



DESCRIPTION


Steareth-21 is a compound belonging to the class of chemicals known as polyethylene glycols (PEG) that are derived from stearic acid.
Specifically, Steareth-21 is a polyethylene glycol ether of stearyl alcohol.
Steareth 21 is a surfactant and emulsifying agent commonly used in the formulation of cosmetic and personal care products.

Steareth-21 is a polyethylene glycol ether derived from stearic acid and stearyl alcohol.
Steareth 21 functions as a surfactant, aiding in the dispersion of oils in water-based formulations.

Known for its excellent emulsifying properties, Steareth-21 helps blend oil and water components in cosmetic products.
Widely used in cosmetic formulations, it contributes to the texture and stability of creams, lotions, and emulsions.
Steareth-21 has a specific HLB value, making it suitable for creating stable emulsions with a specific oil-water ratio.

As a nonionic surfactant, it is less likely to interact with other ingredients in formulations.
Steareth 21 adds a smooth and silky texture to skincare products, enhancing their spreadability on the skin.
Steareth 21 exhibits good compatibility with various cosmetic ingredients, making it versatile in formulations.
Steareth 21 is generally considered mild and well-tolerated, making it suitable for sensitive skin formulations.

Being nonionic, it does not carry an electrical charge, contributing to its stability in formulations.
Steareth 21 contributes to the moisturizing effect of skincare products, leaving the skin feeling hydrated.
Steareth 21 is often used in non-comedogenic formulations, making it suitable for products designed for acne-prone skin.
Steareth 21 enhances the stability of emulsions, preventing them from separating over time.

Its versatility allows for easy formulation of various cosmetic and personal care products.
Steareth 21 improves the spreadability of creams and lotions on the skin, providing a pleasant application experience.
Steareth 21 is used in hair care products such as shampoos and conditioners to improve texture and manageability.
Steareth 21 can contribute to the formation of a protective film on the skin, aiding in moisture retention.

Steareth 21 is often used in combination with other surfactants to achieve specific performance characteristics in formulations.
Steareth 21 maintains stability over a range of pH levels, contributing to the versatility of cosmetic formulations.
Steareth 21 contributes to the rheological properties of formulations, influencing their thickness and consistency.
Steareth 21 is included in cleansing products to improve the emulsification and removal of dirt and oils from the skin.

Steareth 21 is considered as a cost-effective ingredient in cosmetic formulations due to its efficacy and versatility.
Its nonionic nature may contribute to formulations that are more environmentally friendly.
Steareth 21 is generally recognized as safe for use in cosmetic and personal care products, meeting regulatory standards.
Versatile Applications: Its versatility allows for applications in various products, ranging from skincare and hair care to bath and body formulations.



FIRST AID


Skin Contact:

In case of skin irritation or redness, wash the affected area thoroughly with mild soap and water.
Remove contaminated clothing and wash it before reuse.
If irritation persists, seek medical attention.


Eye Contact:

In case of eye contact, immediately flush the eyes with plenty of water for at least 15 minutes, holding the eyelids open to ensure thorough rinsing.
If irritation persists, seek medical attention.


Inhalation:

If there is accidental inhalation of dust or vapors, move the person to fresh air.
If respiratory irritation persists, seek medical attention.


Ingestion:

Steareth-21 is not intended for ingestion, and accidental ingestion is unlikely due to its use in topical products.
In the rare event of ingestion, do not induce vomiting. Rinse the mouth with water and seek medical attention.


General Advice:

If irritation, redness, or any adverse reaction occurs, discontinue use of the product containing Steareth-21.
Consult a healthcare professional if there are concerns about specific allergies or sensitivities.



HANDLING AND STORAGE


Handling:

Personal Protective Equipment (PPE):
Wear appropriate personal protective equipment, such as gloves and safety goggles, when handling Steareth-21 in its pure form.

Ventilation:
Work in a well-ventilated area or use local exhaust ventilation to minimize exposure to vapors or dust.

Avoid Skin Contact:
While Steareth-21 is generally considered safe for topical use, minimize direct skin contact to prevent potential irritation.
If contact occurs, wash the affected area with soap and water.

Prevent Inhalation:
Avoid inhaling vapors or dust. If working with powdered forms, use a dust mask to reduce the risk of inhalation.

Avoid Eye Contact:
Wear protective eyewear to prevent accidental splashes into the eyes.
In case of eye contact, flush eyes with plenty of water.

Proper Mixing:
When formulating products, follow recommended guidelines for mixing Steareth-21 with other ingredients.
Ensure compatibility with other components to maintain stability.

Temperature Control:
If working with heated formulations, control temperatures to avoid excessive heat, which may affect the stability of Steareth-21.

Equipment Cleaning:
Clean equipment thoroughly after use to prevent cross-contamination and ensure the purity of subsequent formulations.


Storage:

Temperature:
Store Steareth-21 in a cool, dry place away from direct sunlight and heat sources.
Recommended storage temperatures are often between 15°C to 25°C (59°F to 77°F).

Airtight Containers:
Store Steareth-21 in airtight containers to prevent moisture absorption, which can affect its stability.

Keep Away from Incompatible Substances:
Avoid storing Steareth-21 near incompatible substances, such as strong acids or bases, to prevent chemical reactions that could compromise its properties.

Original Containers:
Ideally, store Steareth-21 in its original packaging to retain important labeling and safety information.
Ensure that containers are tightly sealed when not in use.

Separation Concerns:
If the product has separated due to storage conditions, gently mix or stir it to restore its homogeneity before use.

Check for Contamination:
Regularly inspect stored Steareth-21 for any signs of contamination, discoloration, or unusual odors.
If abnormalities are detected, consult the manufacturer.

Avoid Freezing:
While Steareth-21 is generally stable, freezing temperatures may alter its consistency.
Protect it from extreme cold conditions.

Keep Out of Reach of Children:
Store Steareth-21 in a secure location, out of reach of children, to prevent accidental ingestion or misuse.



SYNONYMS


Steareth-21
PEG-100 Stearate
Polyethylene Glycol (100) Stearate
Ethoxylated Stearyl Alcohol
Stearyl Alcohol Ethoxylate
Ceteareth-21 (a related term, depending on the specific ethoxylation process)
Stearyl Alcohol PEG-100 Ether
Ceteareth-21
Ethoxylated Cetyl Alcohol
PEG Stearyl Ether
Cetyl Alcohol Ethoxylate
PEG-100 Stearyl Ether
Polyethylene Glycol Stearyl Ether
Cetearyl Alcohol Ethoxylate
Stearyl Ether PEG-100
Stearyl PEG Ether
PEG-100 Cetyl Ether
Ethoxylated Fatty Alcohol
PEG Stearyl Alcohol
Cetyl Ether PEG-100
Stearyl Alcohol Polyethylene Glycol Ether
Cetyl Alcohol PEG Ether
Stearyl PEG-100 Ether
Ethoxylated Octadecanol
PEG-100 Octadecyl Ether
Polyethylene Glycol Cetyl Ether
Ethoxylated Octadecyl Alcohol
PEG-100 Octadecanol Ether
Octadecyl Ether PEG-100
PEG Octadecyl Ether
Cetyl Octadecyl Ether
Octadecyl Alcohol Ethoxylate
Ceteareth-21
PEG-21 Stearate
Polyethylene Glycol Stearyl Ether
Ethoxylated Octadecanol
Stearyl Alcohol PEG Ether
PEG-21 Stearyl Ether
Cetyl Stearyl Ether
Stearyl Alcohol Ethoxylate (21 EO)
PEG-21 Cetyl Ether
Ethoxylated Cetearyl Alcohol
Stearyl PEG Ether
Cetearyl Stearyl Ether
PEG-21 Cetearyl Ether
Stearyl Alcohol Polyethylene Glycol Ether
Cetyl Ether PEG-21
Cetearyl PEG-21 Ether
Polyethylene Glycol Cetearyl Ether
PEG-21 Octadecyl Ether
Octadecyl Alcohol PEG Ether
PEG-21 Octadecanol Ether
Octadecyl Ether PEG-21
Ethoxylated Octadecyl Alcohol
PEG-21 Octadecyl Stearate
Octadecyl Alcohol Ethoxylate (21 EO)
Cetyl Octadecyl Ether 

STEARETH-10, N° CAS : 9005-00-9 (Generic) / 13149-86-5, Nom INCI : STEARETH-10, Ses fonctions (INCI) : Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Agent de restauration lipidique : Restaure les lipides des cheveux ou des couches supérieures de la peau, Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Principaux synonymes Noms français :ether de polyéthylène glycol stéarylique. Noms anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

SYNONYMS Steareth-10 Allyl Ether/Acrylates Copolymer is a copolymer of the allyl ether of Steareth-10 (q.v.) and one or more monomers consisting of acrylic acid, methacrylic acid or one of their simple esters CAS NO:109292-17-3

STEARETH-100; N° CAS : 9005-00-9 (Generic); Nom INCI : STEARETH-100; Classification : Composé éthoxylé; Ses fonctions (INCI); Gélifiant : Donne la consistance d'un gel à une préparation liquide. Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation; Noms anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-11, N° CAS : 9005-00-9 (Generic), Nom INCI : STEARETH-11, Classification : Composé éthoxylé, Ses fonctions (INCI), 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 anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-12, Nom INCI : STEARETH-12, Classification : Composé éthoxylé, Ses fonctions (INCI) : Agent émulsifiant : Favorise la formation de mélanges intimes entre des liquides non miscibles en modifiant la tension interfaciale (eau et huile). Solvant : Dissout d'autres substances. Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation. Noms anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-2, N° CAS : 9005-00-9 (Generic) / 16057-43-5, Nom INCI : STEARETH-2, N° EINECS/ELINCS : 500-017-8 / -, Classification : Composé éthoxylé, Ses fonctions (INCI): 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 anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- (2 mol EO average molar ratio); polyethylene glycol (2) stearyl ether; polyoxyethylene (2) stearyl alcohol ether; polyoxyethylene (2) stearyl ether cas no:9005-00-9

DESCRIPTION:
Steareth-2 is a surfactant.
Steareth-2 is a waxy compound mainly used as an emulsifier & surfactant in various cosmetic products.
Its Molecular Formula is C22H46O3 and Molecular Weight is 358.6.

CAS number.: 9005-00-9
EINECS/ELINCS No.: 500-017-8
Name / Description
α-octadecyl-ω-hydroxypoly(oxy-1,2-ethanediyl)

SYNONYMS OF STEARETH-2:
Steareth-2,16057-43-5,2-(2-octadecoxyethoxy)ethanol,Lipocol S-2,Procol SA-2,Genapol HS 020,PEG-2 Stearyl ether,BRIJ s2,Ethanol, 2-[2-(octadecyloxy)ethoxy]-,V56DFE46J5,UNII-V56DFE46J5,DIETHYLENE GLYCOL MONOOCTADECYL ETHER*,2-(2-(Octadecyloxy)ethoxy)ethan-1-ol,2-[2-(Octadecyloxy)ethoxy]ethan-1-ol,STEARETH-2 [II],STEARETH-2 [VANDF],SCHEMBL145703,n-octadecyloxyethoxyethyl alcohol,DTXSID90936344,DIETHYLENE GLYCOL STEARYL ETHER,NS00095668,Q27291552




Steareth-2 is a white soft solid (2-mole ethoxylate of stearyl alcohol) auxiliary oil-in-water emulsifier with an HLB value of 4.9.
It is a multifunctional ingredient used in personal care applications as a nonionic surfactant, wetting agent, solubilizer, conditioner, and coupling agent.

Steareth-2 is soluble in alcohol and cottonseed oil and insoluble in water and propylene glycol.
It is helpful in emulsifying ceto-stearyl alcohols and all oil-in-water emulsions, including those containing up to 25% ethanol or high electrolyte concentrations.

Enabling cream and milk formulations, Steareth-2 exhibits low and high pH resistance and is compatible with oleosome- and phosphosome-containing formulations.
Combined with Steareth-21, it has better emulsifying performance and is used in many personal care applications, including sprayable products.

Steareth-2 is incorporated in various cosmetics and toiletries, such as cream rinses, conditioners, bath oils, creams, lotions, deodorants, antiperspirants, and shaving products.
Steareth-2 is a mild, virtually odorless, nonionic surfactant.
Steareth-2 is typically used at 0.5-5%.



FUNCTION(S) OF STEARETH-2 IN COSMETIC PRODUCTS
SURFACTANT - EMULSIFIER
Mixes the aqueous and oily phases of a formula to create an emulsion
SURFACTANT - CLEANER
Moistens the skin surface, emulsifies or makes oils soluble and suspends impurities (generally, these ingredients contribute to the foaming properties of cleansers).


Emulsifying agent:
Steareth-2 Promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
Surfactant:
Steareth-2 Reduces the surface tension of cosmetics and contributes to the uniform distribution of the product during use.

ORIGIN OF STEARETH-2:
Steareth-2 is polyethylene glycol ethers of stearic acid.
Its ingredients are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.
The number that comes after (for instance, 2) indicates the average number of ethylene oxide units used in the preparation.






Steareth-2 is a surfactant.
Steareth-2 is a waxy compound mainly used as an emulsifier & surfactant in various cosmetic products.
Its Molecular Formula is C22H46O3 and Molecular Weight is 358.6.

USES OF STEARETH-2
In cosmetics and personal care products, Steareth-2 primarily functions as an emulsifier to help water and oil-based ingredients stay together so that an emulsion is formed.
Steareth-2 is used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.

Skin care:
Steareth-2 is used as an emulsifier & surfactant in products such as moisturizer, daily cream with SPF, mascara, foundation, facial moisturizer/treatment, hand cream, sunless tanning, mask, brow liner, antiperspirant/deodorant, recreational sunscreen, facial cleanser, around-eye cream, body firming lotion, serums & essences, foot moisturizer, makeup primer, eye liner, anti-aging, after shave, antiperspirant/deodorant (men's), foot odour control, exfoliant/scrub, BB cream, bronzer/highlighter, baby oil, styling mousse/foam, detangler, skin fading/lightener, eye makeup remover, concealer, foot cleansing, lip balm, damaged skin treatment.

Hair care:
Steareth-2 is used as an emulsifier & surfactant in products such as hair styling aide, hair treatment/serum, Conditioner, styling gel/lotion, shampoo.






CHEMICAL AND PHYSICAL PROPERTIES OF STEARETH-2:
CAS Number 9005-00-9 (Generic) / 16057-43-5
Chem/IUPAC Name: 2-(2-octadecoxyethoxy)ethanol
EINECS/ELINCS No: 605-213-8
COSING REF No: 78990
Boiling Point 455.7±20.0°C at 760 mmHg
Flash Point 229.4±21.8°C
Index of Refraction 1.455
Vapor Pressure 0.0±2.5 mmHg at 25°C
Density 0.9±0.1 g/cm3
Inci name
Steareth-2
French name
Steareth-2
CAS number.
9005-00-9 (Generic) / 16057-43-5
EC number.
500-017-8 / -
Other appellations
Steareth-2
Origins
Synthetic
Animal
CosIng functions
Emulsifying Agent
Surfactant
Molecular Weight
358.6 g/mol
Computed by PubChem 2.2 (PubChem release 2021.10.14)
XLogP3
8.2
Computed by XLogP3 3.0 (PubChem release 2021.10.14)
Hydrogen Bond Donor Count
1
Computed by Cactvs 3.4.8.18 (PubChem release 2021.10.14)
Hydrogen Bond Acceptor Count
3
Computed by Cactvs 3.4.8.18 (PubChem release 2021.10.14)
Rotatable Bond Count
22
Computed by Cactvs 3.4.8.18 (PubChem release 2021.10.14)
Exact Mass
358.34469533 g/mol
Computed by PubChem 2.2 (PubChem release 2021.10.14)
Monoisotopic Mass
358.34469533 g/mol
Computed by PubChem 2.2 (PubChem release 2021.10.14)
Topological Polar Surface Area
38.7Ų
Computed by Cactvs 3.4.8.18 (PubChem release 2021.10.14)
Heavy Atom Count
25
Computed by PubChem
Formal Charge
0
Computed by PubChem
Complexity
221
Computed by Cactvs 3.4.8.18 (PubChem release 2021.10.14)
Isotope Atom Count
0
Computed by PubChem
Defined Atom Stereocenter Count
0
Computed by PubChem
Undefined Atom Stereocenter Count
0
Computed by PubChem
Defined Bond Stereocenter Count
0
Computed by PubChem
Undefined Bond Stereocenter Count
0
Computed by PubChem
Covalently-Bonded Unit Count
1
Computed by PubChem
Compound Is Canonicalized
Yes




SAFETY INFORMATION ABOUT STEARETH-2:
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.

Steareth-2's molecular formula is C22H46O3 and its molecular weight is 358.6 g/mol.
Steareth-2 is a white waxy solid.
Steareth-2 is a surfactant composed of polyethylene glycol polymer and stearyl alcohol.


CAS Number: 9005-00-9 (Generic) / 16057-43-5
EC Number: 605-213-8 / 500-017-8
Molecular Formula: C22H46O3
Chem/IUPAC Name: 2-(2-octadecoxyethoxy)ethanol


Steareth-2 is a surfactant.
Steareth-2 is a waxy compound mainly used as an emulsifier & surfactant in various cosmetic products.
Steareth-2's Molecular Formula is C22H46O3 and Molecular Weight is 358.6.


Steareth-2 is a waxy compound that primarily functions as an emulsifier to help water and oil-based ingredients stay together so that an emulsion is formed.
Steareth-2 is polyethylene glycol ethers of stearic acid.
Steareth-2 is a waxy compound and when added to cosmetics and personal care products, the Steareth ingredients reduce the interactive forces between solids and liquids so that an emulsion is formed.


If an ingredient such as a Steareth is not added to some personal care products, the ingredients in the product would separate like some salad dressings.
The number after the word Steareth indicates the degree of liquidity from 4 (thin) to 100 (solid).
Steareth-2 is a surfactant.


Steareth-2 is polyethylene glycol ethers of stearci acid.
Steareth-2 is a waxy compound.
Steareth-2 acts as solid non-ionic O/W emulsifier.


Steareth-2 is a fatty alcohol polyglycol ether with non-ionic character.
Steareth-2's saponification value 2.0 maximum.
Steareth-2's recommended use level 1-5%.


Steareth-2 is a surfactant that is made from stearyl alcohol and ethylene oxide.
Steareth-2 is a substance that is not allowed in natural or BIO certified cosmetics.
Steareth-2 is a synthetic irritant, more precisely an ethoxylated compound composed of polyethylene glycol polymer and stearyl alcohol.


Steareth-2 occurs in the form of a light waxy substance, soluble in alcohol, but not in water.
In the cosmetics industry, Steareth-2 functions as an emulsifier, surfactant and surface-active agent, in addition to reducing surface tension and improving the mutual bonds of ingredients in the product.


Steareth-2 is a surfactant that is made from stearyl alcohol and ethylene oxide.
Steareth-2 belongs to the so-called ethoxylated compounds, which are prepared by polymerization of ethylene oxide and are available in a wide range of molecular weights.
During the reaction, the by-product 1,4-dioxane is formed.


These two substances (ethylene oxide, 1,4-dioxane), which are known to have carcinogenic effects, are common contaminants of ethoxylated compounds.
If ethoxylated compounds are used as a cosmetic raw material, the concentration of these contaminants must be reduced to the "permissible level".
Ethoxylated compounds are not accepted in certified natural and BIO cosmetics.


If an ingredient such as this is absent from certain skin care formulations, the solution would separate (sort of like what you see with certain oil-based salad dressings).
Steareth-2 is often combined with other steareth ingredients, such as steareth-21, since this combination provides an elevated sensory experience.


In 2012, the independent Cosmetic Ingredient Review panel ruled that steareth-2 is safe as used in cosmetics in amounts up to 10%.
There have been concerns about the safety of steareth ingredients because toxic 1,4-dioxane, a by-product of ethoxylation, can be produced; however, this is eliminated through purification processes.


Steareth-2 is polyethylene glycol ethers of stearic acid.
Steareth-2's ingredients are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.


The number that comes after (for instance, 2) indicates the average number of ethylene oxide units used in the preparation.
Steareth-2 is a waxy compound that primarily functions as an emulsifier to help water and oil-based ingredients stay together so that an emulsion is formed.
If an ingredient such as this is absent from certain skin care formulations, the solution would separate (sort of like what you see with certain oil-based salad dressings).


Steareth-2 is often combined with other steareth ingredients, such as steareth-21, since this combination provides an elevated sensory experience.
Steareth-2 is a surfactant composed of polyethylene glycol polymer and stearyl alcohol.
Steareth-2 is a non-ionic emulsifier for various O/ W skin care emulsions, especially suitable for O/ W anti-perspirant roll-ons


Steareth-2 is a useful research compound.
The purity of Steareth-2 is usually 95%.
The exact mass of the compound Steareth-2 is unknown and the complexity rating of the compound is unknown.


Steareth-2 is a non-ionic emulsifier for various O/ W skin care emulsions, especially suitable for O/ W anti-perspirant roll-ons.
Steareth-2's molecular formula is C22H46O3 and its molecular weight is 358.6 g/mol.
Steareth-2 is polyethylene glycol ethers of stearic acid.


A waxy compound and when added to cosmetics and personal care products, the Steareth ingredients reduce the interactive forces between solids and liquids so that an emulsion is formed.
If an ingredient such as a Steareth is not added to some personal care products, the ingredients in the product would separate like some salad dressings.


The number after the word Steareth indicates the degree of liquidity from 4 (thin) to 100 (solid).
This Steareth-2 MarketResearch Report offers a thorough examination and insights into the market's size, shares, revenues, various segments, drivers, trends, growth, and development, as well as its limiting factors and local industrial presence.


A thorough understanding of the Chemical and Material sector and its commercial potential is the aim of the market study.
Steareth ingredients are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.


The number that comes after indicates the average number of ethylene oxide units used in the preparation.
The Steareth ingredients (Steareth-2, Steareth-4, Steareth-6, Steareth-7, Steareth-10, Steareth-11, Steareth-13, Steareth-15, Steareth-20) are polyethylene glycol ethers of stearci acid.


They are waxy compounds. In cosmetics and personal care products, Steareth ingredients are used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.
The Steareths are prepared by reacting ethylene oxide with stearyl alcohol where the numerical value in the name corresponds to the average number of units of ethylene oxide.
For example, Steareth-2 is prepared using an average of 2 units of ethylene oxide reacted with stearyl alcohol.



USES and APPLICATIONS of STEARETH-2:
Steareth-2 is a waxy compound that primarily functions as an emulsifier to help water and oil-based ingredients stay together so that an emulsion is formed.
In cosmetics and personal care products, Steareth-2 primarily functions as an emulsifier to help water and oil-based ingredients stay together so that an emulsion is formed.


Steareth-2 is used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.
Steareth-2 is a waxy solid material that helps oil and water to mix together, aka emulsifier.
Steareth-2 is derived from the fatty alcohol, stearyl alcohol by ethoxylating it and thus making the molecule a little water-soluble.


Steareth-2 has only a small amount of ethoxylation and thus the molecule is still largely oil soluble.
Steareth-2 is often mixed with more water-soluble emulsifiers (such as Steareth-20) to create stable emulsion systems.


Steareth-2 is a PEG ether of stearyl alcohol Steareth-2 uses and applications include: Intermediate in the manufacturing of high-foaming surfactants; emulsifier, detergent, dispersant, wetting agent for pulppaper, textiles, paints, adhesives, corrosion inhibitors, petrol. oils; surfactant, emulsifier in topical pharmaceuticals, cosmetics; thickener; emollient; solubilizer, coupling agent; stabilizer


In cosmetics and personal care products, Steareth ingredients are used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.
Due to Steareth-2's special characteristics, good electrolyte resistance and good texture, not sticky.
Steareth-2 Emulsifier is commonly used in underarm products.


Usage of Steareth-2: As a binder, cream (emulsifier) or thickener in creams, lotions, serums or gels.
Steareth-2 is used for external use only.
Steareth-2 is used emulsions for skin and hair care products.
Steareth-2 is used in skin care.


-Skin care:
Steareth-2 is used as an emulsifier & surfactant in products such as moisturizer, daily cream with SPF, mascara, foundation, facial moisturizer/treatment, hand cream, sunless tanning, mask, brow liner, antiperspirant/deodorant, recreational sunscreen, facial cleanser, around-eye cream, body firming lotion, serums & essences, foot moisturizer, makeup primer, eye liner, anti-aging, after shave, antiperspirant/deodorant (men's), foot odour control, exfoliant/scrub, BB cream, bronzer/highlighter, baby oil, styling mousse/foam, detangler, skin fading/lightener, eye makeup remover, concealer, foot cleansing, lip balm, damaged skin treatment.
Steareth-2 occurs in the form of a waxy, white to slightly yellow substance.
Steareth-2 works as a non-ionic surfactant.
You can find Steareth-2 in hair dyes, deodorants, creams, mascaras, sunscreens, bath foams, shower gels and shampoos.


-Hair care:
Steareth-2 is used as an emulsifier & surfactant in products such as hair styling aide, hair treatment/serum, Conditioner, styling gel/lotion, shampoo.


-Commercial use of Steareth-2:
*Hair dyes
*Shampoos
*Deodorants
*Mascara
*Tanning products
*Shower gels



FUNCTIONS OF STEARETH-2 IN COSMETIC PRODUCTS:
*SURFACTANT - EMULSIFIER:
Allows the formation of finely dispersed mixtures of oil and water (emulsions)
*SURFACTANT - CLEANER:
Surfactant for cleaning the skin, hair and/or teeth.



FUNCTIONS OF STEARETH-2:
Steareth-2 is an emulsifier for cosmetic W/O and co-emulsifier for O/W emulsions.
Steareth-2 is suitable for skin creams and lotions, deodorant/antiperspirant sprays and roll-ons in combination with Steareth-2 or Steareth-21.
Steareth-2 has stable emulsions over a wide pH range.



CLASS OF STEARETH-2:
*Corrosion Inhibitors
*Surfactants



FUNCTIONS OF STEARETH-2:
*Surfactant
*Emulsifier
*Dispersant
*Stabilizer



FUNCTIONS OF STEARETH-2:
*Emulsifying agent:
Steareth-2 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
*Surfactant:
Steareth-2 reduces the surface tension of cosmetics and contributes to the even distribution of the product during use



STEARETH-2 AT A GLANCE:
*Waxy compound that is a derivative of stearyl alcohol (which is a non-irritating fatty alcohol)
*Primarily functions as an emulsifier to help water and oil-based ingredients stay blended
*Often combined with steareth-21 to improve a product’s sensory attributes
*Deemed safe by the independent Cosmetic Ingredient Review panel
Steareth-2 description



INDUSTRY OF STEARETH-2:
*Cosmetic
*Pharmaceutical
*Textiles
*Adhesives
*Detergent



WHAT DOES STEARETH-2 DO IN A FORMULATION?
*Emulsifying
*Surfactant



WHY IS STEARETH-2 USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
When added to cosmetics and personal care products, the Steareth ingredients reduce the interactive forces between molecules of other liquids so that an emulsion is formed.
If an ingredient such as a Steareth is not added to some personal care products, the ingredients in the product would separate like some salad dressings.



PHYSICAL and CHEMICAL PROPERTIES of STEARETH-2:
Molecular Weight: 358.6
XLogP3: 8.2
Hydrogen Bond Donor Count: 1
Hydrogen Bond Acceptor Count: 3
Rotatable Bond Count: 22
Exact Mass: 358.34469533
Monoisotopic Mass: 358.34469533
Topological Polar Surface Area: 38.7 Ų
Heavy Atom Count: 25
Formal Charge: 0
Complexity: 221
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
CAS RN: 16057-43-5
Product Name: Steareth-2
Molecular Formula: C22H46O3
Molecular Weight: 358.6 g/mol
IUPAC Name: 2-(2-octadecoxyethoxy)ethanol
InChI: InChI=1S/C22H46O3/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-19-24-21-22-25-20-18-23/h23H,2-22H2,1H3
InChI Key: ILCOCZBHMDEIAI-UHFFFAOYSA-N
Other CAS RN: 16057-43-5



FIRST AID MEASURES of STEARETH-2:
-Description of first aid measures:
*Contact with eyes:
Remove contact lenses, if present.
Wash immediately with plenty of water for at least 15 minutes, opening the eyelids fully.
*Contact with skin:
Remove contaminated clothing.
Wash immediately with plenty of water.
*Ingestion:
Get medical advice/attention.
*Inhalation:
Remove to open air.
-Indication of any immediate medical attention and special treatment needed:
No information available



ACCIDENTAL RELEASE MEASURES of STEARETH-2:
-Environmental precautions:
Do not allow to escape into ground, drains, sewage system, surface or ground waters.
-Methods and material for containment and cleaning up:
Make sure the leakage site is well aired.



FIRE FIGHTING MEASURES of STEARETH-2:
-Extinguishing media
*Suitable extinguishing media:
The extinguishing equipment should be of the conventional kind:
carbon dioxide,
foam,
powder and water spray.
*Unsuitable extinguishing media: None in particular.
-Advice for firefighters
*General information:
Use jets of water to cool the containers to prevent product decomposition and the development of substances potentially hazardous for health.
Always wear full fire prevention gear.
Collect extinguishing water to prevent it from draining into the sewer system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of STEARETH-2:
-Control parameters:
No information available
-Exposure controls:
Provide an emergency shower with face and eye wash station.
*Hand protection:
Work glove material must be chosen according to the use process and the products that may form.
*Skin protection:
Wear category I professional long-sleeved overalls and safety footwear.
Wash body with soap and water after removing protective clothing.



HANDLING and STORAGE of STEARETH-2:
-Precautions for safe handling:
Before handling the product, consult all the other sections of this material safety data sheet.
Do not eat, drink or smoke during use.
-Conditions for safe storage, including any incompatibilities:
Store only in the original container



STABILITY and REACTIVITY of STEARETH-2:
-Reactivity:
Stable under normal conditions.
-Chemical stability:
Stable under normal temperature conditions and recommended use.
-Possibility of hazardous reactions:
No hazardous reactions if stored and handled as prescribed/indicated.
-Conditions to avoid:
None in particular.
-Incompatible materials:
No information available
-Hazardous decomposition products:
No data available



SYNONYMS:
Steareth-2
2-(2-octadecoxyethoxy)ethanol
16057-43-5
Lipocol S-2
Procol SA-2
Genapol HS 020
PEG-2 Stearyl ether
BRIJ s2
V56DFE46J5
DIETHYLENE GLYCOL MONOOCTADECYL ETHER*
Brij-72
STEARETH-2 [II]
STEARETH-2 [INCI]
UNII-V56DFE46J5
STEARETH-2 [VANDF]
SCHEMBL145703
n-octadecyloxyethoxyethyl alcohol
DTXSID90936344
DIETHYLENE GLYCOL STEARYL ETHER
2-[2-(Octadecyloxy)ethoxy]ethan-1-ol
Ethanol, 2-[2-(octadecyloxy)ethoxy]-
Q27291552
Brij S2-SO
Brij 72
Unijet 72
Polyoxyethylene ( 2 ) Stearyl Ether
Ethoxylated Dodecyl Alcohol
Ethoxylated Stearyl Alcohol
Steareth-2
PEG-2 stearyl ether
PEG 100 stearyl ether
POE (2) stearyl ether
Ethanol, 2-(2-(octadecyloxy)ethoxy)-
2-(2-(Octadecyloxy)ethoxy)ethanol
3,6,9,12,15,18,21-Heptaoxanonatriacontan-1-ol
Octadecyl polyoxyethylene ether
PEG-100 Stearyl ether
PEG-11 Stearyl ether
PEG-13 Stearyl ether
PEG-14 Stearyl ether
PEG-15 Stearyl ether
PEG-16 Stearyl ether
PEG-2 Stearyl ether
PEG-20 Stearyl ether
PEG-21 Stearyl ether
PEG-25 Stearyl ether
PEG-27 Stearyl ether
PEG-30 Stearyl ether
PEG-40 Stearyl ether
PEG-50 Stearyl ether
PEG-7 Stearyl ether
Polyethylene glycol (100) stearyl ether
Polyethylene glycol (11) stearyl ether
Polyethylene glycol (13) stearyl ether
Polyethylene glycol (14) stearyl ether
Polyethylene glycol (15) stearyl ether
Polyethylene glycol (16) stearyl ether
Polyethylene glycol (21) stearyl ether
Polyethylene glycol (25) stearyl ether
Polyethylene glycol (27) stearyl ether
Polyethylene glycol (30) stearyl ether
Polyethylene glycol (50) stearyl ether
Polyethylene glycol (7) stearyl ether
Polyethylene glycol 1000 stearyl ether
Polyethylene glycol 2000 stearyl ether
Polyoxyethylene (100) stearyl ether
Polyoxyethylene (11) stearyl ether
Polyoxyethylene (13) stearyl ether
Polyoxyethylene (14) stearyl ether
Polyoxyethylene (15) stearyl ether
Polyoxyethylene (16) stearyl ether
Polyoxyethylene (2) stearyl ether
Polyoxyethylene (20) stearyl ether
Polyoxyethylene (21) stearyl ether
Polyoxyethylene (25) stearyl ether
Polyoxyethylene (27) stearyl ether
Polyoxyethylene (30) stearyl ether
Polyoxyethylene (40) stearyl ether
Polyoxyethylene (50) stearyl ether
Polyoxyethylene (7) stearyl ether
Steareth-100
Steareth-11
Steareth-13
Steareth-14
Steareth-15
Steareth-16
Steareth-2
Steareth-20
Steareth-21
Steareth-25
Steareth-27
Steareth-30
Steareth-40
Steareth-50
Steareth-7
Polyethylene glycol monostearyl ether
Polyoxyethylated stearyl alcohol
Stearyl alcohol EO (10)
Stearyl alcohol EO (20)
Stearyl alcohol ethylene oxide (2)
Stearyl alcohol, ethoxylated
Stereal alcohol EO (2)
UNII-36ALR4705B
UNII-L0Q8IK9E08
Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy-
Stearyl alcohol condensed with 20 moles ethylene oxide
Stearyl alcohol condensed with l0 moles ethylene oxide
Stearyl alcohol, condensed with 2 moles ethylene oxide
Polyoxyethylene monooctadecyl ether
2-(octadecyloxy)ethanol
[2-(octadecyloxy)ethyl]oxidanyl
Brij(R) 76

Steareth-20 is a synthetic polymer derived from ethoxylation.
Steareth-20 is obtained from stearic acid and the number 20 denotes the average number of repeating ethylene glycol units.
Steareth-20 is one of the most researched and reviewed ingredients.


CAS Number: 9005-00-9 / 2136-72-3 / 69980-69-4
EINECS/ELINCS No: 500-017-8 / 218-374-0
Chem/IUPAC Name: 2-octadecoxyethanol
Categories: Cleansing Agent, pH Adjuster/Stabilizer
Chemical Formula: C20H42O2


Steareth-20 is a synthetic ingredient that functions as a cleansing agent, a surfactant, and an emulsifier in a variety of cosmetics and skincare products.
Steareth-20 is one of the most researched and reviewed ingredients.
Steareth-20 is used synthetic polymer.


Steareth-20 is produced from polyethylene glycol (PEG) and stearyl alcohol.
Steareth-20 is a synthetic polymer composed of PEG (polyethylene glycol) and stearyl alcohol.
Due to the presence of PEG, Steareth-20 may contain potentially toxic manufacturing impurities such as 1,4-dioxane.


Steareth-20 is a derivative of the benign fatty ingredient stearyl alcohol.
Steareth-20 is the INCI name for a cosmetic ingredient that is a nonionic surfactant.
Steareth-20's chemical structure is derived from the family of ethoxylated fatty alcohols.


Chemically, Steareth-20 is a mixture of ethoxylated cetyl and stearic alcohols with 20 moles of ethylene oxide.
Stearic alcohol is most commonly derived from plant sources, and Steareth-20 is a completely vegan ingredient that does not contain any ingredients of animal origin.


Since Steareth-20 complies with the quality requirements of the pharmacy code published in the European Pharmacopoeia, the product is classified in the Macrogol Cetostearyl Ether group.
Steareth-20 is a valuable ingredient, a washing agent that removes impurities from both hair and skin.



Steareth-20 is a synthetic polymer composed of PEG (polyethylene glycol) and stearyl alcohol.
Or Steareth-20 can be combined with more oil-loving emulsifiers (such as Steareth-20's sister, Steareth-2) to create stable emulsions.
Steareth-20 is a synthetic ingredient that functions as a cleansing agent, a surfactant, and an emulsifier in a variety of cosmetics and skincare products.


Steareth-20 is a synthetic polymer.
Steareth-20 is produced from polyethylene glycol (PEG) and stearyl alcohol
Steareth-20 helps keep ingredients together in an emulsion.


Steareth-20 is deemed safe as used in cosmetics.
The independent Cosmetic Ingredient Review panel has ruled that steareth-20 is safe as used in cosmetics in amounts up to 25%.
The Steareth ingredients (Steareth-2, Steareth-4, Steareth-6, Steareth-7, Steareth-10, Steareth-11, Steareth-13, Steareth-15, Steareth-20) are polyethylene glycol ethers of stearci acid.


Steareth-20 functions as both an emollient and an emulsifier, which essentially means Steareth-20 is able to thicken personal care products and help the different ingredients stay together.
Steareth-20 is a surfactant that is made from stearyl alcohol and ethylene oxide.


Steareth-20 belongs to the so-called ethoxylated compounds, which are prepared by polymerization of ethylene oxide and are available in a wide range of molecular weights. During the reaction, the by-product 1,4-dioxane is formed.
Polyethylene glycols (INCI: PEG-...) are polycondensation products of ethylene glycol or polymerisation products of ethylene oxide.


A waxy solid material, Steareth-20, that helps oil and water to mix together, aka emulsifier.
Steareth-20 is derived from the fatty alcohol called stearyl alcohol by ethoxylating it and thus making the molecule more water-soluble.
Steareth-20 occurs in the form of a waxy, white to slightly yellow substance.


Steareth-20 works as a non-ionic surfactant.
Steareth-20, This is a Polyethoxylated Alcohol, which is a fatty alcohol derived from natural oils and fats and is known by it's INCI name, Steareth-20.
Steareth-20 is a white-ish waxy solid that's water dispersible.


Steareth-20 is an oil-in-water emulsifier.
Steareth-20 is a synthetic polymer derived from ethoxylation.
Steareth-20 is obtained from stearic acid and the number 20 denotes the average number of repeating ethylene glycol units.


Steareth-20 is derived from the benign fatty ingredient stearyl alcohol.
Steareth-20 is a derivative of the benign fatty ingredient stearyl alcohol.
Steareth ingredients may be animal-derived or synthetic.


They are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.
The steareth ingredients are waxy solids that can be used in cosmetics at concentrations of up to 25 percent.
Steareth-20 is a synthetic ingredient that functions as a cleansing agent, a surfactant, and an emulsifier to improve the texture and feel of formulations.


Steareth-20 works well with most ingredients.
A synthetic polymer *Produced from polyethylene glycol (PEG) and stearyl alcohol.
Derivative of fatty alcohol stearyl alcohol.


Steareth-20 is used functions as a surfactant and stabilizer.
A type of Polyethylene glycol (ether) made from Stearyl alcohol used for cleansing, slight conditioning, as well as keeping a product from separating into its oil and water components.


The number that comes after (for instance, 20) indicates the average number of ethylene oxide units used in the preparation.
There have been concerns about the safety of steareth ingredients because toxic 1,4-dioxane, a by-product of ethoxylation, can be produced; however, this is eliminated through purification processes.
The end result is a mostly water-loving emulsifier, also called solubilizer that can help to dissolve small amounts of oil-loving ingredients into water-based products.


A simple and effective emulsifier for a light emulsion, the texture of which will depend on the thickness of the oils themselves.
Steareth-20 is a synthetic ingredient that acts as a detergent, a surfactant and as an emulsifier to improve the consistency of the formulas.
The group of steareth ingredients are synthetic compounds that are created through a process known as ethoxylation, a chemical reaction in which ethylene oxide is added to a substrate.


With steareth-20, the substrate is stearyl alcohol, a fatty alcohol that is derived from stearic acid.
The number associated with the steareth-20 indicates the average number of repeating ethylene oxide units in the molecule.
The Steareths are prepared by reacting ethylene oxide with stearyl alcohol where the numerical value in the name corresponds to the average number of units of ethylene oxide.


For example, Steareth-2 is prepared using an average of 2 units of ethylene oxide reacted with stearyl alcohol.
Steareth-20 is prepared from cetyl-stearyl alcohol and 20 moles of ethylene oxide.
Provides exceptionally stable emulsions when used in combination with another emulsifier such as glyceryl stearate.


Steareth-20 is soluble in water and isopropyl alcohol.
Steareth-20 has an HLB value of 15.3.


HLB (Hydrophilic-Lipophilic Balance) is an empirical expression for the relationship between the hydrophilic and hydrophobic groups of a surfactant.
HLB greater than 10 means that the substance is soluble in water.
Steareth-20 also acts as an emulsifier.
Steareth-20, An emulsifier is needed for products that contain both water and oil components, such as when oils are added to a water-based formula.


The group of steareth ingredients are synthetic compounds that are created through a process known as ethoxylation, a chemical reaction in which ethylene oxide is added to a substrate.
With steareth-20, the substrate is stearyl alcohol, a fatty alcohol that is derived from stearic acid.


The number associated with the steareth-20 indicates the average number of repeating ethylene oxide units in the molecule.
The steareth ingredients are waxy solids that can be used in cosmetics at concentrations of up to 25 percent.
The Steareths are prepared by reacting ethylene oxide with stearyl alcohol where the numerical value in the name corresponds to the average number of units of ethylene oxide.


For example, Steareth-2 is prepared using an average of 2 units of ethylene oxide reacted with stearyl alcohol.
The Steareth ingredients (Steareth-2, Steareth-4, Steareth-6, Steareth-7, Steareth-10, Steareth-11, Steareth-13, Steareth-15, Steareth-20) are polyethylene glycol ethers of stearci acid.
They are waxy compounds.


Steareth ingredients may be animal-derived or synthetic.
They are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.
The number that comes after (for instance, 20) indicates the average number of ethylene oxide units used in the preparation.


There have been concerns about the safety of steareth ingredients because toxic 1,4-dioxane, a by-product of ethoxylation, can be produced; however, this is eliminated through purification processes.
Polyethylene glycol ethers of stearic acid make up the Steareth ingredients (Steareth-2, Steareth-4, Steareth-6, Steareth-7, Steareth-10, Steareth-11, Steareth-13,


Steareth-15, and Steareth-20). Steareth-20 primarily functions as a surfactant and emulsifier in cosmetic products and is generally available as a waxy, solid material.
It can be used in the creation of personal hygiene products, deodorants, fragrances, skin, eye, and hair products.
Steareth ingredients may be animal-derived or synthetic.


They are prepared by interacting with the chemical intermediate gas ethylene oxide with stearyl alcohol, a process which forms an entirely new stable compound.
The number that comes after (for instance, 20) indicates the average number of ethylene oxide units used in the preparation.
There have been concerns about the safety of steareth ingredients because toxic 1,4-dioxane, a by-product of ethoxylation, can be produced; however, this is eliminated through purification processes.


The independent Cosmetic Ingredient Review panel has ruled that steareth-20 is safe as used in cosmetics in amounts up to 25%.
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.


Steareth-20, component enabling the formation of an emulsion.
Emulsion is a physicochemical form that is created by combining (mixing) the water phase with the oil phase.
Examples of cosmetic emulsions are creams, lotions, lotions.


Steareth-20 that stabilizes foam and improves the quality of foam in a mixture with anionic surfactants.
Steareth-20 acts as a rheology modifier (i.e. improves the consistency causing an increase in viscosity) in washing preparations containing anionic surfactants, thanks to the formation of the so-called mixed micelles.



USES and APPLICATIONS of STEARETH-20:
Steareth-20 is used in the formulations of face washes and make-up removers, as it can deeply clean all kinds of dirt and make-up.
Steareth-20 is used in body lotions, hand and foot creams, hair masks and conditioners due to its emollient and emollient properties.
Since Steareth-20 is an excellent dispersant for active ingredients in spray formulations, we can find it in this type of dressings and antiseptic compositions.


Steareth-20 is used Bath & Shower, Baby Care, Skin Care, Hair Care, Hair Conditioner, Hair Styling, Cream, Lotion, Sun Protection, Antiperspirant & Deodorant, Emulsifier, Surfactant, Cleanser, Emollient, Thickener, Hair & Skin Conditioner, and Moisturizer.
Steareth-20 is suitable for skincare creams and lotions, deodorants, and antiperspirants, including in combination with other emulsifiers.


Based on vegetable raw materials, Steareth-20 provides stable emulsions over a wide pH range, emulsifying oils and fats in highly acidic or alkaline media.
Steareth-20 rids the skin of the oil, dirt and grime accumulated on the skin.
Steareth-20 is a polyoxyethylene fatty ether derived from stearyl alcohols designed to emulsify and produce stable dispersions of cosmetic materials.


Steareth-20, This fatty alcohol derivative enables the formation and stabilisation of the product’s texture.
You can find Steareth-20 in hair dyes, deodorants, creams, mascaras, sunscreens, bath foams, shower gels and shampoos.
In cosmetics, Steareth-20 functions primarily as a surfactant but is also used to make products more stable, especially if they contain active ingredients in an emulsion.


Since Steareth-20 is based on polyethylene glycol structure, it increases the permeability of active substances to the skin by increasing transepidermal permeability and is therefore a valuable component of face creams and oils.
Steareth-20 mainly works as a surfactant, emulsifier, and solubilizer in cosmetics and personal care products.
Steareth-20 is one of several ingredients within Emulsifying Wax NF, which is widely quoted as being the most popular emulsifying wax for crafters.


The Steareth ingredients reduce the interactions between the molecules of other liquids when they are added to cosmetics and personal care products, causing an emulsion to form.
Some personal care products' ingredients would separate out if an ingredient like Steareth was not added.
Cleaning agent: Helps keep a surface clean


Steareth-20 is used Cosmetics, Polyethers/Alkoxylates, Alkoxylated Alcohol, Personal Care, Emollient, Personal Care - Cosmetic Ingredients, Bath, shower & soaps, Antiperspirants & deodorants, Body care, and Eye colour
Steareth-20 is added to products to stabilize the formulations.


Steareth 20 is considered safe to be used in personal care products.
Steareth-20 is often used as a surfactant and an emulsifier.
Steareth-20 is added to products to stabilize the formulations.


Steareth 20 is considered safe to be used in personal care products.
Steareth-20 is recommended for antiperspirants and deodorants, shaving, baby care, body care, facial care, sun care, pre- and after-shave lotions, coloring, and make-up applications.


Emulsifying: Promotes the formation of intimate mixtures of immiscible liquids by changing their interfacial tension.
Cleaning: Helps keep body surface clean.
Steareth-20 is a well-known ingredient used as an emulsifier and a surfactant in personal care products.


Steareth-20 is used as cleansing agent, a surfactant and an emulsifier, like many other PEG and other oil derived substances.
According to the Cosmetics Database Steareth-20 is found most often in eye creams, anti-aging skin care products and moisturizers, but has been used to a lesser degree in many other forms of cosmetics.


Steareth-20 has exceptional stability and tolerance to extreme levels of pH.
Steareth 20 is used as cleansing agent, a surfactant and an emulsifier, like many other PEG and other oil derived substances.
Steareth-20 is a non-ionic emulsifier for cosmetic oil-in-water and partially also for water-in-oil emulsions.


Steareth- 20 as surfactant is used for skin and hair-cleaning purposes and as emulsifier and solubilizing agent in cosmetics and Hair Colorants.
Steareth-20 helps to keep the product stable over time and is also a "wash-out" component in Developers and Hair Colorants, means Steareth-20 helps to remove all residues after a Hair Color application.


In cosmetics and personal care products, Steareth ingredients are used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.
In cosmetics, Steareth-20 functions primarily as a surfactant but is also used to make products more stable, especially if they contain active ingredients in an emulsion.


Steareth-20 is used Face / neck skin care, Face colour, Hair colour, Lip colour, Shaving / hair removal, Sun protection, Cosmetics & Detergents, Flavours & Fragrances, Industrial Chemicals, Pharma & Nutrition, Sun Care, and Color Cosmetics.
In addition, it can be used in combination with consistency-providing substances to form viscosity-enhancing gel structures in the external water phase.


Steareth-20 is added to cosmetics and personal care products because it functions as a cleansing agent, a surfactant, and an emulsifier.
Steareth-20 is also an emulsifier & thickener.
Steareth-20 also moisturizes skin.


In cosmetics and personal care products, Steareth-20 ingredients are used in personal care and deodorant formulations, as well as suntan, fragrance, skin, eye and hair care products.
Steareth-20 has exceptional stability and tolerance to extreme levels of pH.
According to the Cosmetics Database Steareth-20 is found most often in eye creams, anti-aging skin care products and moisturizers, but has been used to a lesser degree in many other forms of cosmetics.


In skin care products, Steareth-20, surfactants work to degrease and emulsify oils and fats and suspend soil, allowing them to be washed away.
Steareth-20 is used as rheology agents- allows desirable Flow or thickness or film formation in any cosmetic product.
Steareth-20 is also used as a gelling agent in lotions and gels.


Steareth-20 is often used as a surfactant and an emulsifier.
Steareth-20 is added to cosmetics and skincare products because it functions as a cleansing agent, a surfactant, and an emulsifier.
These abilities help to improve the texture and feel of skincare products.


Steareth-20 is used on Steareth-20's own Steareth-20 will effectively make light lotions and creams, the texture of which will rely on the saturation of the oil/s used.
Steareth 20 is a polyoxyethylene fatty ether derived from stearyl alcohols designed to emulsify and produce stable dispersions of cosmetic materials.
Steareth-20 is used in emulsion systems for skin care, hair care and color cosmetics.


Found in a ton of products, such as moisturizers, hair products, facial cleansers, makeup, and hair grooming products.
Steareth-20 is waxy compounds.
In cosmetics and personal care products, Steareth-20 ingredients are used in the formulation of personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair products.


-Cosmetic action:
Washing substance removes impurities from the surface of the hair and skin.
Steareth-20 facilitates the contact of the cleaned surface with the washing solution, which facilitates the removal of impurities from the surface of the skin and hair.


-Surfactants, Steareth-20, 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.


-Acts as an emulsifier:
Steareth-20 keeps the oil-based components and water-based components together and prevents them from disintegrating into their individual constituents.
Steareth-20 makes the formulation stable.


-Cosmetic action:
Skin softening
-Purpose:
Purifying, softening
-Effective for skin or hair types:
Sensitive skin, eyelid skin, combination skin, dry skin, normal skin, all skin types


-Emulsifiers, Steareth-20, are often used as auxiliary substances in cosmetics.
They make it possible to bring components that are actually not miscible with each other, such as oil and water, into a permanently stable emulsion.
In cosmetic products, both aqueous and oily care and active ingredients can be used in a single product.
Emulsifiers are able to do this because their molecules consist of a fat-loving (lipophilic) and a water-loving (hydrophilic) part.
This allows them to reduce the interfacial tension that actually exists between two incompatible substances such as fat and water.
Emulsifiers are used in particular for creams, lotions and cleaning agents.
In the meantime, however, emulsifiers are much more than just auxiliary substances that keep an emulsion stable.


-Surfactant:
Reduces the interfacial tension of cosmetic products and contributes to an even distribution during application.
-Acts as a surfactant:
Steareth-20 is an effective surfactant as Steareth-20 reduces the surface tension between 2 liquids or a liquid and a solid.


-Surfactant (Cleaning):
Detergent substance for cleaning skin, hair and/or teeth
-Synthetic Steareth-20, can be used in natural cosmetics.
-Steareth-20 is added to cosmetics and personal care products as it acts as a cleanser, surfactant and emulsifier.


-Cleaning;
Cleans skin, hair or teeth
-Tensid (Emulsifying) - Emulgator:
Allows the formation of finely divided mixtures of oil and water (emulsions)


-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 skilful combination of a tenside with unfavorable skin compatibility, but very good dirt-dissolving properties, and a very mild, skin-friendly tenside - viewed on its own - results in a product with good cleaning properties and equally good skin compatibility.


-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


-Cosmetic Uses of Steareth-20:
*cleansing agents
*surfactants
*surfactant - emulsifying


-Emulsifier:
Steareth-20 also functions as an emulsifier. An emulsifier is needed for products that contain both water and oil-based ingredients.
When water and oil are mixed together the two ingredients often separate or split.
To address this problem, an emulsifier like steareth-20 can be added which helps to produce a stable product.


-Surfactants:
Surfactants are ingredients that lower the surface tension between two substances, such as two liquids or a liquid and a solid.
Steareth-20, In skincare products, surfactants work to degrease and emulsify oils and fats and suspend dirt, allowing them to be washed away.
This is possible because while one end of the surfactant molecule is attracted to water, the other end is attracted to oil.
Thus, surfactants attract the oil, dirt, and other impurities that have accumulated on your skin during the day and wash them away.
Due to these properties, steareth-20 can be found in many different cleansers and body washes.



WHY IS STEARETH-20 USED?
Steareth-20 is added to cosmetics and skincare products because it functions as a cleansing agent, a surfactant, and an emulsifier.
These abilities help to improve the texture and feel of skincare products.

-Surfactants:
Surfactants are ingredients that lower the surface tension between two substances, such as two liquids or a liquid and a solid.
In skincare products, surfactants work to degrease and emulsify oils and fats and suspend dirt, allowing them to be washed away.
This is possible because while one end of the surfactant molecule is attracted to water, the other end is attracted to oil.
Thus, surfactants attract the oil, dirt, and other impurities that have accumulated on your skin during the day and wash them away.
Due to these properties, steareth-20 can be found in many different cleansers and body washes.

-Emulsifier:
Steareth-20 also functions as an emulsifier.
An emulsifier is needed for products that contain both water and oil-based ingredients.
When water and oil are mixed together the two ingredients often separate or split.
To address this problem, an emulsifier like steareth-20 can be added which helps to produce a stable product.



STEARETH-20 AT A GLANCE:
*Derivative of fatty alcohol stearyl alcohol
*Functions as a surfactant and stabilizer
*Helps keep ingredients together in an emulsion
*Deemed safe as used in cosmetics



PHYSICAL AND CHEMICAL PROPERTIES OF STEARETH-20:
Normal room temperature (about 25 oC) and under atmospheric pressure conditions Steareth-20 is a white solid with a waxy consistency.
Steareth-20 has exceptionally good dispersion, dissolving (ie increasing resolution) and thickening properties.
Steareth-20 exhibits high stability in the presence of electrolytes and hard water, but is sensitive to certain changes in its environment.

If its solution is acidified, Steareth-20 undergoes hydrolysis and breaks down into smaller fragments.
The very high degree of ethoxylation of cetyl-stearyl alcohol demonstrates the strong hydrophilic properties of the substances.
Therefore Steareth-20 is an excellent stabilizing agent and O/W (oil in water) emulsifier.

This means that a formulation can combine two independent phases – water and oil – thus providing the appropriate form of the final product.
In compositions using a combination of anionic surfactants, Steareth-20 is a foaming agent that stabilizes the foam and improves its quality as mixed micelles are formed.
Steareth-20 can act as a solubilizer, ie a substance capable of introducing poorly soluble substances (eg plant extracts and oils or fragrance compositions) into aqueous solutions. Regarding the varying sensitivity of the active ingredients to high temperatures, Steareth-20 can be used as an ingredient in the emulsification process already at room temperature due to its high emulsifying properties.

In contrast, with its high dispersing and stabilizing properties, Steareth-20 increases the production of formulations that are available as solids, such as ointments.
Steareth-20 can improve consistency as it is a rheology modifier.
Steareth-20 also provides a very good and even distribution of the active ingredient in spray compositions.

According to Global Organizations conducting research on active ingredients, Steareth-20 is considered a safe agent with no restrictions on its use.
Steareth-20 is non-allergenic and non-comedogenic, so it is not excluded for people with acne or problem skin.
The adverse environmental effects of the content were not recorded.



BENEFITS OF STEARETH-20:
Steareth-20 has the following benefits:
-Acts as a surfactant:
Steareth-20 is an effective surfactant as it reduces the surface tension between 2 liquids or a liquid and a solid.
Steareth-20 rids the skin of the oil, dirt and grime accumulated on the skin.

-Acts as an emulsifier:
Steareth-20 keeps the oil-based components and water-based components together and prevents them from disintegrating into their individual constituents.
Steareth-20 makes the formulation stable.



FUNCTIONS OF STEARETH-20 IN COSMETIC PRODUCTS:
*FILM FORMING:
Produces a continuous film on skin, hair and / or nails



FUNCTIONS OF STEARETH-20:
-Cleaning agent:
Steareth-20 helps keep a surface clean
-Emulsifying agent:
Steareth-20 promotes the formation of intimate mixtures between immiscible liquids by modifying the interfacial tension (water and oil)
-Surfactant:
Steareth-20 reduces the surface tension of cosmetics and contributes to the even distribution of the product during use
Steareth 20 is used as cleansing agent, a surfactant and an emulsifier, like many other PEG and other oil derived substances.
According to the Cosmetics Database this ingredient is found most often in eye creams, anti-aging skin care products and moisturizers, but has been used to a lesser degree in many other forms of cosmetics.
-Cleanser (Cosmetics):
Improves the cleansing properties of water
-Emulsifier:
Allows water and oils to remain mixed together to form an emulsion.
-Solubilizer:
Increases the solubility of poorly soluble ingredients
-Surfactant:
Reduces the surface tension to allow mixtures to be formed evenly.
Emulsifier is a specific type of surfactant which allows two liquids to mix together evenly
-Dispersing agents
-Emulsifiers
-Surfactants / detergents



WHAT DOES STEARETH-20 DO IN A FORMULATION?
*Cleansing
*Emulsifying
*Surfactant



STEARETH-20:
*THE GOOD:
Steareth-20 is a synthetic ingredient that functions as a cleansing agent, a surfactant, and an emulsifier to improve the texture and feel of formulations.
*SYNERGETIC INGREDIENTS:
Steareth-20 works well with most ingredients



KEY BENEFITS of STEARETH-20:
-Stabilizes Oil-in-Water Emulsions



WHY IS STEARETH-20 USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
When added to cosmetics and personal care products, the Steareth ingredients reduce the interactive forces between molecules of other liquids so that an emulsion is formed.
If an ingredient such as a Steareth is not added to some personal care products, the ingredients in the product would separate like some salad dressings.



PHYSICAL and CHEMICAL PROPERTIES of STEARETH-20:
Appearance: White to pale yellow petrolatum-like or waxy substance
Color: White
Form: Powder
Chemistry: Alkoxylated alcohols
Assay: 95.00 to 100.00
Food Chemicals Codex Listed: No
Boiling Point: 413.00 to 414.00 °C. @ 760.00 mm Hg (est)
Flash Point: > 200.00 °F. TCC ( > 93.33 °C. )
logP (o/w): 7.966 (est)
Molecular Weight: 313.5383
Appearance: Solid
Colour: White
Odour: Odourless
pH: 9 - 11
Melting point/Range: Not available
Boiling Point/Range: Not available
Solubility in water: No information available
Other information: No information available
Appearance Form: Wax like
Color: white

Odor: No data available
Odor Threshold: No data available
pH: 6,0 - 7,5 at 30 g/l
Melting point/freezing point: No data available
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
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



FIRST AID MEASURES of STEARETH-20:
-Description of first aid measures:
*Contact with eyes:
Remove contact lenses, if present.
Wash immediately with plenty of water for at least 15 minutes, opening the eyelids fully.
*Contact with skin:
Remove contaminated clothing.
Wash immediately with plenty of water.
*Ingestion:
Get medical advice/attention.
*Inhalation:
Remove to open air.
-Indication of any immediate medical attention and special treatment needed:
No information available



ACCIDENTAL RELEASE MEASURES of STEARETH-20:
-Environmental precautions:
Do not allow to escape into ground, drains, sewage system, surface or ground waters.
-Methods and material for containment and cleaning up:
Make sure the leakage site is well aired.



FIRE FIGHTING MEASURES of STEARETH-20:
-Extinguishing media
*Suitable extinguishing media:
The extinguishing equipment should be of the conventional kind: carbon dioxide,
foam,
powder and water spray.
*Unsuitable extinguishing media: None in particular.
-Advice for firefighters
*General information:
Use jets of water to cool the containers to prevent product decomposition and the development of substances potentially hazardous for health.
Always wear full fire prevention gear.
Collect extinguishing water to prevent it from draining into the sewer system.



EXPOSURE CONTROLS/PERSONAL PROTECTION of STEARETH-20:
-Control parameters:
No information available
-Exposure controls:
Provide an emergency shower with face and eye wash station.
*Hand protection:
Work glove material must be chosen according to the use process and the products that may form.
*Skin protection:
Wear category I professional long-sleeved overalls and safety footwear.
Wash body with soap and water after removing protective clothing.



HANDLING and STORAGE of STEARETH-20:
-Precautions for safe handling:
Before handling the product, consult all the other sections of this material safety data sheet.
Do not eat, drink or smoke during use.
-Conditions for safe storage, including any incompatibilities:
Store only in the original container



STABILITY and REACTIVITY ofSTEARETH-20:
-Reactivity:
Stable under normal conditions.
-Chemical stability:
Stable under normal temperature conditions and recommended use.
-Possibility of hazardous reactions:
No hazardous reactions if stored and handled as prescribed/indicated.
-Conditions to avoid:
None in particular.
-Incompatible materials:
No information available
-Hazardous decomposition products:
No data available



SYNONYMS:
Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy
2-octadecoxyethanol (peg-20)
BRIJ S20
LIPOCOL S-20
PEG-20 STEARYL ETHER
POLYETHYLENE GLYCOL (20) STEARYL ETHER
POLYETHYLENE GLYCOL 1000 STEARYL ETHER
POLYOXYETHYLENE (20) STEARYL ETHER
POLYOXYETHYLENE 20 STEARYL ETHER
POLYOXYL 20 STEARYL ETHER
POLYOXYL 20 STEARYL ETHER [USP-RS]
STEARETH-20 [II]
STEARETH-20 [INCI]
STEARETH-20 [VANDF]
Stearyl alcohol ethoxylate with 20 moles of ethylene oxide
Ethanol, 2-(2-(octadecyloxy)ethoxy)-
2-(2-(Octadecyloxy)ethoxy)ethanol
3,6,9,12,15,18,21-Heptaoxanonatriacontan-1-ol
Octadecyl polyoxyethylene ether
PEG-100 Stearyl ether
PEG-11 Stearyl ether
PEG-13 Stearyl ether
PEG-14 Stearyl ether
PEG-15 Stearyl ether
PEG-16 Stearyl ether
PEG-2 Stearyl ether
PEG-20 Stearyl ether
PEG-21 Stearyl ether
PEG-25 Stearyl ether
PEG-27 Stearyl ether
PEG-30 Stearyl ether
PEG-40 Stearyl ether
PEG-50 Stearyl ether
PEG-7 Stearyl ether
Polyethylene glycol (100) stearyl ether
Polyethylene glycol (11) stearyl ether
Polyethylene glycol (13) stearyl ether
Polyethylene glycol (14) stearyl ether
Polyethylene glycol (15) stearyl ether
Polyethylene glycol (16) stearyl ether
Polyethylene glycol (21) stearyl ether
Polyethylene glycol (25) stearyl ether
Polyethylene glycol (27) stearyl ether
Polyethylene glycol (30) stearyl ether
Polyethylene glycol (50) stearyl ether
Polyethylene glycol (7) stearyl ether
Polyethylene glycol 1000 stearyl ether
Polyethylene glycol 2000 stearyl ether
Polyoxyethylene (100) stearyl ether
Polyoxyethylene (11) stearyl ether
Polyoxyethylene (13) stearyl ether
Polyoxyethylene (14) stearyl ether
Polyoxyethylene (15) stearyl ether
Polyoxyethylene (16) stearyl ether
Polyoxyethylene (2) stearyl ether
Polyoxyethylene (20) stearyl ether
Polyoxyethylene (21) stearyl ether
Polyoxyethylene (25) stearyl ether
Polyoxyethylene (27) stearyl ether
Polyoxyethylene (30) stearyl ether
Polyoxyethylene (40) stearyl ether
Polyoxyethylene (50) stearyl ether
Polyoxyethylene (7) stearyl ether
Steareth-100
Steareth-11
Steareth-13
Steareth-14
Steareth-15
Steareth-16
Steareth-2
Steareth-20
Steareth-21
Steareth-25
Steareth-27
Steareth-30
Steareth-40
Steareth-50
Steareth-7
Polyethylene glycol monostearyl ether
Polyoxyethylated stearyl alcohol
Stearyl alcohol EO (10)
Stearyl alcohol EO (20)
Stearyl alcohol ethylene oxide (2)
Stearyl alcohol, ethoxylated
Stereal alcohol EO (2)
UNII-36ALR4705B
UNII-L0Q8IK9E08
Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy-
Stearyl alcohol condensed with 20 moles ethylene oxide
Stearyl alcohol condensed with l0 moles ethylene oxide
Stearyl alcohol, condensed with 2 moles ethylene oxide
Polyoxyethylene monooctadecyl ether
2-(octadecyloxy)ethanol
[2-(octadecyloxy)ethyl]oxidanyl
Brij(R) 76
2-(Octadecyloxy)ethanol
2-Octadecoxyethanol
Ethanol, 2-(octadecyloxy)-
Ethylene glycol monooctadecyl ether
POE (10) stearyl alcohol ether
2-(octadecyloxy)ethan-1-ol
Steareth-20
Steareth-21
Ethanol,2-(octadecyloxy)-
2-Octadecyloxyethanol
3-Oxahenicosane-1-ol
2-(octadecyloxy) ethanol
2-(octadecyloxy)-ethanol
6-Tetrachloro-2-picoline
DSSTox_CID_9299
C18-alcohol polyethoxylate
AMTGC009
DSSTox_RID_78754
DSSTox_GSID_29299
Polyoxyl stearyl ether (NF)
SCHEMBL490673
Ethoxylated Stearyl Alcohols 2
Polyoxyethylene(100) stearate
CHEMBL3181944
Ethoxylated Stearyl Alcohols 20
a,a,a,6-Tetrachloro-2-picoline
Polyethylene glycol stearyl ether
DTXSID60858842
DTXSID70891669
AMY36496
C20H42O2
Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy-
EINECS 218-374-0
Tox21_202772
MFCD00043351
ZINC56898840
AKOS015839820
AS-2008
HEXADECANOIC-7,7,8,8-D4ACID
NCGC00260319-01
DB-066492
BB 0256761
CS-0318307
FT-0682442
D08975
F20467
Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy-, phosphate, sodium salt

Steareth-20 (Emulsifier) is a derivative of the benign fatty ingredient stearyl alcohol.
In cosmetics, Steareth-20 (Emulsifier) functions primarily as a surfactant but is also used to make products more stable, especially if they contain active ingredients in an emulsion.
Steareth-20 (Emulsifier) may be animal-derived or synthetic.

CAS: 9005-00-9
MF: C20H42O2
MW: 314.54628
EINECS: 500-017-8

Synonyms
Blaunon SR 711;Blaunon SR 715;Blaunon SR 720;Blaunon SR 730;Brij 2;Brij 720;Brij 762;Brij 78P
2-(Octadecyloxy)ethanol;2136-72-3;2-Octadecoxyethanol;9005-00-9;Ethanol, 2-(octadecyloxy)-;Ethylene glycol monooctadecyl ether;POE (10) stearyl alcohol ether;2-(octadecyloxy)ethan-1-ol;Steareth-21;Ethanol,2-(octadecyloxy)-;C20H42O2;2-Octadecyloxyethanol;Brij? S20;2-(octadecyloxy) ethanol;2-(octadecyloxy)-ethanol;DSSTox_CID_9299;DSSTox_RID_78754;DSSTox_GSID_29299;SCHEMBL490673;CHEMBL3181944;DTXSID60858842;AMY36496;EINECS 218-374-0;Tox21_202772;MFCD00043351;AKOS015839820;AS-2008;HEXADECANOIC-7,7,8,8-D4ACID;NCGC00260319-01;PD160410;CAS-9005-00-9;A4605;BB 0256761;CS-0318307;FT-0682442;NS00008395;NS00048617;D08975;F20467;F77844

They are prepared by interacting with the chemical intermediate gas ethylene oxide with Steareth-20 (Emulsifier), a process which forms an entirely new stable compound.
The number that comes after (for instance, 20) indicates the average number of ethylene oxide units used in the preparation.
Steareth-20 (Emulsifier) is a surfactant that belongs to the class of polyoxyethylene ethers.
Steareth-20 (Emulsifier) is majorly used in pharmaceutical applications to improve the solubility of the drugs.
Steareth-20 (Emulsifier) can also be grafted on a variety of surfaces to enhance the intracellular uptake of dyes.
Steareth-20 (Emulsifier) is a synthetic polymer composed of PEG (polyethylene glycol) and stearyl alcohol.
Due to the presence of PEG, Steareth-20 (Emulsifier) may contain potentially toxic manufacturing impurities such as 1,4-dioxane.

Polyethylene glycol ethers of stearic acid make up the Steareth ingredients (Steareth-2, Steareth-4, Steareth-6, Steareth-7, Steareth-10, Steareth-11, Steareth-13, Steareth-15, and Steareth-20).
Steareth-20 (Emulsifier) primarily functions as a surfactant and emulsifier in cosmetic products and is generally available as a waxy, solid material.
Steareth-20 (Emulsifier) can be used in the creation of personal hygiene products, deodorants, fragrances, skin, eye, and hair products.
Steareth-20 is a non-ionic emulsifier for cosmetic oil-in-water and partially also for water-in-oil emulsions.
Steareth-20 (Emulsifier) is suitable for skincare creams and lotions, deodorants, and antiperspirants, including in combination with other emulsifiers.

Based on vegetable raw materials, Steareth-20 (Emulsifier) provides stable emulsions over a wide pH range, emulsifying oils and fats in highly acidic or alkaline media.
In addition, Steareth-20 (Emulsifier) can be used in combination with consistency-providing substances to form viscosity-enhancing gel structures in the external water phase.
This naturally derived surfactant provides several functional benefits, including effective wetting and high foaming properties.

Steareth-20 (Emulsifier) is suitable for various applications, such as fabric and laundry care, as well as industrial and institutional cleaning.
Steareth-20 (Emulsifier) is the polyethylene glycol ether of stearyl alcohol with an average of 20 repeating units of ethylene glycol.
Steareth-20 (Emulsifier) is an emulsifier for oil-in-water emulsions and a solubilizer.
Steareth-20 (Emulsifier) is useful in a wide range of personal care products and cosmetics and is compatible with all types of oils and actives.
Since Steareth-20 (Emulsifier) is a completely saturated solid material, it is very stable and has an HLB of about 14-16.
Steareth-20 (Emulsifier) can be combined with other surfactants to achieve any required HLB.

Steareth-20 (Emulsifier) Chemical Properties
Melting point: 56-60 °C
Boiling point: 100 °C
Density: 0.964 g/mL at 25 °C(lit.)
Vapor pressure: 0Pa at 20℃
Fp: >230 °F
Solubility: propylene glycol and xylene: insoluble
Form: pellets
Color: white
Specific Gravity: 0.893
Odor: at 100.00?%. bland
Water Solubility: 50ng/L at 20℃
Stability: Stable. Combustible. Incompatible with strong oxidizing agents.
InChI: InChI=1S/C20H42O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16-17-19-22-20-18-21/h21H,2-20H2,1H3
InChIKey: ICIDSZQHPUZUHC-UHFFFAOYSA-N
LogP: 7.07
EPA Substance Registry System: Steareth-20 (Emulsifier) (9005-00-9)

Uses
Steareth-20 (Emulsifier) mainly works as a surfactant, emulsifier, and solubilizer in cosmetics and personal care products.
Steareth-20 (Emulsifier) reduce the interactions between the molecules of other liquids when they are added to cosmetics and personal care products, causing an emulsion to form.
Some personal care products' ingredients would separate out if an ingredient like Steareth was not added.
Skin care: Its benefits are not limited to only cleansing.
As an emulsifier, Steareth-20 (Emulsifier) facilitates the mixing of oil and water.
Steareth-20 (Emulsifier) is created by ethoxylating the fatty alcohol stearyl alcohol, which increases the molecule's water solubility.
The end result is an emulsifier-cum-solubilizer, that primarily prefers water and can help dissolve trace amounts of oil-loving ingredients into water-based products.
Or, to make stable emulsions, Steareth-20 (Emulsifier) can be mixed with emulsifiers that prefer oil, like its sister Steareth-2.

STEARETH-21, N° CAS : 9005-00-9 (Generic), Origine(s) : Synthétique. Nom INCI : STEARETH-21. 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. Noms anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

brij 721 brij S721 cromul EM1207 hetoxol STA-21 lipocol S-21 2- octadecoxyethanol (peg-21) peg-21 stearyl ether poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- (21 mol EO average molar ratio) polyethylene glycol (21) stearyl ether polyoxyethylene (21) stearyl alcohol ether polyoxyethylene (21) stearyl ether CAS : 9005-00-9

STEARETH-3, N° CAS : 9005-00-9 (Generic) / 4439-32-1, Nom INCI : STEARETH-3, Classification : Composé éthoxylé, Ses fonctions (INCI) : 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 anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-30, N° CAS : 9005-00-9 (Generic), Nom INCI : STEARETH-30. Classification : Composé éthoxylé, Tensioactif non ionique, Le steareth-30 est un éther de polyéthylène glycol et d'acide stéarique. C'est un tensioactif non ionique d'apparence cireuse. Il est principalement utilisé dans les dentifrices en cosmétique.Ses fonctions (INCI). Agent nettoyant : Aide à garder une surface propre. Gélifiant : Donne la consistance d'un gel à une préparation liquide. Tensioactif : Réduit la tension superficielle des cosmétiques et contribue à la répartition uniforme du produit lors de son utilisation.Noms anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-4, N° CAS : 9005-00-9 (Generic) / 59970-10-4, Nom INCI : STEARETH-4, Classification : Composé éthoxylé, Ses fonctions (INCI). 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 anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

STEARETH-6, N° CAS : 9005-00-9 (Generic) / 2420-29-3, Nom INCI : STEARETH-6. Classification : Composé éthoxylé. Ses fonctions (INCI). 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 anglais : POLY(OXY-1,2-ETHANEDIYL), .ALPHA.-OCTADECYL-.OMEGA.-HYDROXY- POLY(OXYETHYLENE) MONOOCTADECYL ETHER POLY(OXYETHYLENE) STEARYL ETHER POLYETHYLENE GLYCOL STEARYL ETHER POLYOXYETHYLATED STEARYL ALCOHOL STEARYL ALCOHOL, ETHOXYLATED; Octadecan-1-ol, ethoxylated Polyoxyl stearyl ether CAS names: Poly(oxy-1,2-ethanediyl), .alpha.-octadecyl-.omega.-hydroxy- IUPAC names 1-(2-$l^{1}-oxidanylethoxy)octadecane 2-Octadecoxyethanol alpha-octadecyl-omega-hydroxy-polyglycolether Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated Octadecan-1-ol, ethoxylated, Poly (oxy-1,2-ethanediyl) - α - octadecyl -ω- hydroxyl Poly(oxy-1,2-ethanediyl) , .alpha.-octadecyl-.omega.-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- Poly(oxy-1,2-ethanediyl), a-octadecyl-w-hydroxy- (2-5EO) Poly(oxy-1,2-ethanediyl), alpha-octadecyl-omega-hydroxy- Steareth-2 Trade names 1-Octadecanol, monoether with polyethylene glycol [1-14C]Octadecylalkohol + 7 EO; 7-EO Aduxol ST 05 Alcool en C18 éthoxylé Alkasurf SA 2 Alkyl polyglycol ether C18 with EO Alkyl Polyglykolether C18 mit EO ARLYPON SA 10 FEST; 10-EO Arlypon SA 10; 10-EO Arlypon SA 20 D; 20-EO ARLYPON SA 20 FEST; 20-EO Arlypon SA 20; 20-EO Arlypon SA 4 D; 4-EO Arlypon SA 4; 4-EO Arlypon SA 6; 6-EO ARLYPON SA 7 FEST; 7-EO ARLYPON SA 7; 7-EO Avivan SO 6 Berol 043 Berol 08 C18-Fettalkohol + 12 EO; 12-EO C18-Fettalkohol + 14 EO; 14-EO C18-Fettalkohol + 20 EO; 20-EO C18-Fettalkohol + 28 EO; 28-EO C18-Fettalkohol + 52 EO; 52-EO Cemulsol DB 25/18 Cetalox AT Ekaline G 80 EM 1207 Empilan KM 50 EMTHOX 5888-A POE (20) STEARYL ALCOHOL; 20-EO Emulgen 306P Emulgen 310 Emulgen 320P Ethoxylated octadecyl alcohol Ethoxylated stearyl alcohol Eumulgin S 21; 21-EO Eumulgin S 2; 2-EO Eumulgin SA 2; 2-EO FAEO C18 + 10EO; 10-EO FAEO C18 + 11EO; 11-EO FAEO C18 + 12EO; 12-EO FAEO C18 + 13EO; 13-EO FAEO C18 + 14.6EO; 14,6-EO FAEO C18 + 14EO; 14-EO FAEO C18 + 15EO; 15-EO FAEO C18 + 20EO; 20-EO FAEO C18 + 21EO; 21-EO FAEO C18 + 28EO; 28-EO FAEO C18 + 2EO; 2-EO FAEO C18 + 30EO; 30-EO FAEO C18 + 4EO; 4-EO FAEO C18 + 52EO; 52-EO FAEO C18 + 5EO; 5-EO FAEO C18 + 6EO; 6-EO FAEO C18 + 7EO; 7-EO FAEO C18 + nEO; n-EO Fettalkoholpolyglykolether Genapol S Genapol S 020 Genapol S 100 Genapol S 150 Glycols, polyethylene, monooctadecyl ether Heptaethylene glycol monooctadecyl ether Hetoxol STA 30 LAMECREME SA 7 FEST; 7-EO Lamecreme SA 7; 7-EO Leunapon-F 18 Levenol PW Lipocol S 20 LOROL C 18 + 2EO; 2-EO Macol SA Macol SA 10 Macol SA 100 Macol SA 15 Macol SA 2 Macol SA 20 MACOL SA 20; 20-EO Macol SA 40 Macol SA 5 Marlipal 1850 Mergital S 2 Mergital S 21; 21-EO Newcol 1807 Noigen 140E Nonion S 207 Octadecanol + EO Octadecylalkohol + 7 [14C]EO; 7-EO Poly(oxy-1,2-ethandiyl), α-octadecyl-ω-hydroxy- Poly(oxy-1,2-ethanediyl), α-octadecyl-ω-hydroxy- POLYOXYAETHYLEN(10)STEARYLAETHER POLYOXYAETHYLEN(2)STEARYLAETHER POLYOXYAETHYLEN(20)STEARYLAETHER Polyoxyethylen Polyoxyethylen-(2)-Stearylalkohol Polyoxyethylen-Stearylalkohol-ether Polyoxyethylen-stearylether Stearath 7 Stearath 7 (CTFA) STEARETH Steareth-10 Steareth-10 (INCI) Steareth-100 Steareth-100 (INCI) Steareth-10; 10-EO Steareth-11 Steareth-11 (INCI) Steareth-11; 11-EO Steareth-13 Steareth-13 (INCI) Steareth-13; 13-EO Steareth-14 Steareth-14 (INCI) Steareth-15 Steareth-15 (INCI) Steareth-15; 15-EO Steareth-16 Steareth-16 (INCI) Steareth-2 (CTFA) Steareth-2 (INCI) Steareth-20 Steareth-20 (INCI) Steareth-20; 20-EO Steareth-21 Steareth-21 (INCI) Steareth-25 Steareth-25 (INCI) Steareth-27 Steareth-27 (INCI) Steareth-2; 2-EO Steareth-3 Steareth-3 (INCI) Steareth-30 Steareth-30 (INCI) Steareth-4 Steareth-4 (INCI) Steareth-40 Steareth-40 (INCI) Steareth-4; 4-EO Steareth-5 Steareth-5 (INCI) Steareth-50 Steareth-50 (INCI) Steareth-6 Steareth-6 (INCI) Steareth-6; 6-EO Steareth-7 Steareth-7 (INCI) Steareth-7; 7-EO STEARYL ALCOHOL + 2EO; 2-EO Stearyl alcohol, ethoxylated Stearylalkohol + 2 EO; 2-EO Stearylalkohol + 7 EO; 7-EO Stearylalkohol + EO Stearylalkohol 21 EO; 21-EO STEARYLALKOHOL 4 EO GEREINIGT; 4-EO STEARYLALKOHOL 4 EO; 4-EO Stearylalkohol 6 EO/Stearylalkohol; 6-EO Stearylalkohol 7 EO/Stearylalkohol; 7-EO Stearylalkohol EO 20 Stearylalkohol-(10)polyglycolether Stearylalkohol-(20)polyglycolether Stearylalkohol-(4)polyglycolether Stearylalkohol-(5)polyglycolether Stearylalkohol-(6)polyglycolether Stearylalkohol-(7)polyglycolether Stearylalkohol-(XX)polyglycolether Stearylether Sympatens-AS/020 Tego Antifoam 204 Um A 549; 14,6-EO Volpo S 2; 2-EO Volpo S2 Volpo S2A Xiameter AFE 7610; α-Octadécyl-ω-hydroxypoly(oxyéthylène)

Steareth-5 are polyethylene glycol ethers of stearic acid.
Steareth-5 is waxy compounds.
In cosmetics and personal care products, Steareth-5 is used in the formulation of a wide variety of cosmetics and personal care products including makeup, lotions, personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair care products.

CAS: 85066-57-5
MF: C38H76O3
MW: 581.00824

Synonyms
STEARETH-5 STEARATE;.alpha.-(1-oxooctadecyl)-.omega.- (octadecyloxy)-Poly(oxy-1,2-ethanediyl);Steareth-6 stearate

Steareth-5 is a chemical compound derived from the ethoxylation of stearic acid and an alcohol.
It is commonly used in cosmetic products as a surfactant.
Steareth-5 functions as an emulsifier and moisturizer in products, helping them spread more easily and penetrate the skin.
It also acts as a thickening agent, aiding in the desired texture of cosmetic products.
While generally considered to be non-irritating to the skin, it may cause adverse reactions in some individuals with sensitive skin, so it should be properly tested before use in products.

Steareth-5 is often found in a variety of personal care products, including creams, lotions, and cleansers, due to its ability to improve the texture and feel of these products on the skin.
It is known for its ability to enhance the stability of emulsions, allowing oil and water-based ingredients to mix more effectively.
Additionally, Steareth-5 can help increase the shelf life of cosmetic formulations by acting as a preservative. Overall, Steareth-5 is a versatile ingredient that plays a crucial role in the formulation of many cosmetic and personal care products, contributing to their effectiveness and user experience.

Synthesis
Steareth-5 is synthesized through the ethoxylation of stearic acid and an alcohol, typically hexadecanol (C16 alcohol).
This process involves replacing a hydrocarbon chain with an ethoxylate group.
Initially, stearic acid and the alcohol are mixed in a reaction vessel at a specific temperature and pressure.
Then, a catalyst such as sulfuric acid or boronic acid is added to initiate the reaction.
During this reaction, the hydrogen of the alcohol molecule is replaced with the carboxyl group of stearic acid, bonding the stearate chain to the alcohol molecule.
As a result, the ethoxylation process allows for the formation and acquisition of Steareth-5.
This process is commonly used to obtain a compound used in cosmetic and personal care products, which often require high purity and quality.

Molecular Weight: Approximately 378.54 g/mol
Appearance: It is a waxy solid at room temperature, often appearing as a white to light yellowish paste or flakes.
Solubility: It is soluble in water and various organic solvents.
Hydrophilic-Lipophilic Balance (HLB): The HLB value for Steareth-5 is approximately 11-13, indicating that it is more hydrophilic than lipophilic.
Functional Group: It contains an ethylene oxide chain, which gives it its surfactant properties.

Uses:

Steareth-5 is commonly used in cosmetics and personal care products as an emulsifier, surfactant, and thickening agent.
It helps to stabilize emulsions, improve texture, and enhance the spreadability of products.
Steareth-5 is found in a variety of products including creams, lotions, shampoos, and conditioners.

Emulsifier: Steareth-5 is widely used in cosmetics and personal care products as an emulsifying agent.
It helps to stabilize oil-in-water emulsions, allowing for the blending of ingredients that are normally immiscible, such as water and oil.
This property is particularly useful in creams, lotions, and moisturizers, where it ensures that the product maintains a smooth and uniform texture.

Surfactant: As a surfactant, Steareth-5 reduces the surface tension between different substances, allowing them to mix more easily.
This property makes it effective in cleansing products like shampoos, body washes, and facial cleansers, where it helps to lift dirt and oils from the skin or hair, allowing them to be rinsed away.

Thickening Agent: Steareth-5 can also act as a thickening agent in cosmetic formulations.
By increasing the viscosity of a product, it can improve its texture and provide a more luxurious feel.
This is beneficial in products like creams and lotions, where a thicker consistency is desired.

Moisturizing Agent: Steareth-5 can help to hydrate and soften the skin.
It can act as an occlusive agent, forming a barrier on the skin's surface to lock in moisture and prevent it from evaporating.
This makes it beneficial in moisturizing creams and lotions, where it helps to keep the skin hydrated and supple.

Ingredient Solubilizer: Steareth-5 can also function as a solubilizer, helping to dissolve other ingredients in a formulation.
This property is useful in products where certain ingredients are not water-soluble and need to be incorporated into a water-based formula.

Steareth-50 is a fatty alcohol with high saturation.
Steareth-50 is in the form of white particles / powder, odorless, soluble in water and al'cohol to form a colloidal solution.
Steareth-50 is a polyethylene glycol ether of Cetearyl Alcohol (q.v.).
Steareth-50 is supplied as white to slightly yellowish wax-like flakes or pellets with a faint characteristic odor.


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


Steareth-50 may or may not be vegan.
Steareth-50 is a PEG compound of Stearic Acid, used in cosmetics.
Stearic Acid can have animal or plant sources.


It also features key factors that are responsible for boosting or upsetting the market growth and for the assuring opportunities in the global Steareth-50 Industry.
Steareth-50 is an emulsifier of various origins.
Steareth-50 is a nonionic surfactant made from cetyl and stearyl alcohol and 50 moles of ethylene oxide.


Steareth-50 is an emulsifier of various origins.
Steareth-50 is a nonionic surfactant made from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Steareth-50 Market Research Report offers a thorough examination and insights into the market's size, shares, revenues, various segments, drivers, trends, growth, and development, as well as its limiting factors and local industrial presence.


Steareth-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.
Steareth-50 is a nonionic surfactant prepared from cetyl and stearyl alcohol and 50 moles of ethylene oxide.
Steareth-50 makes it possible to create oil-in-water type emulsions.

Steareth-50 is a non-ionic surfactant from the group of ethoxylated cetearyl alcohols.
Steareth-50 is a component of many cosmetic formulations, where it acts as an emulsifier, stabiliser and dispersant.
Steareth-50 is synthetic.
Steareth-50 is a polyethylene glycol ether of Stearyl Alcohol (q.v.).


Steareth-50 is the polyethylene glycol ether of Stearyl Alcohol that conforms to the formula: CH3(CH2)17(OCH2CH2)nOH, where n has an average value of 6.
Steareth-50 is included in formulations used in the cosmetic and pharmaceutical industries and in dermocosmetics.
Steareth-50 as a surfactant shows very good dispersing, solubilising and thickening properties.
These features result from the chemical structure of Steareth-50, typical for surfactants – they have a hydrophilic moiety (with a strong affinity for water) and a hydrophobic moiety (strongly interacting with the oil phase).


As a dispersant, Steareth-50 evenly disperses the particles of the individual ingredients in the emulsion, ensuring homogeneity of the formulation.
In addition, as a solubiliser, Steareth-50 facilitates the dissolution of the individual components in the solvent.
Solubilisers such as Steareth-50 are especially useful in cosmetics of water content up to 95%.


Thanks to the solubilisers, Steareth-50 is possible to introduce fatty substances, fragrances and other substances insoluble in water.
Steareth-50 is synthesized by natural saturated fatty alcohol and Ethylene Oxide.
Steareth-50 is an excellent popular Oil/Water emulsifier, suggested to combine with Cetheareth-25.


Steareth-50 can resist inorganic salt, high or low pH.
And Steareth-50 imparts cream of high stability and fine appearance.
Steareth-50 is recommended to be used in cream, lotion, even formula containing AHA, as well as strong alkali formula, like hair dye, depilatory cream dispersing agent.


"Steareth-" refers to a PEG-(polyethylene glycol-) ether of stearyl alcohol or isostearyl alcohol.
The number behind "steareth-" refers to the average number of molecular units -CH2-CH2-O-.
The Steareths are prepared by reacting ethylene oxide with stearyl alcohol where the numerical value in the name corresponds to the average number of units of ethylene oxide.
For example, Steareth-2 is prepared using an average of 2 units of ethylene oxide reacted with stearyl alcohol.


The Steareth ingredients are prepared by reacting ethylene oxide with stearyl alcohol where the numerical value in the name corresponds to the average number of units of ethylene oxide.
For example, Steareth-5 is prepared using an average of 5 units of ethylene oxide reacted with stearyl alcohol.


The Steareth ingredients (Steareth-3, Steareth-5, Steareth-8, Steareth-14, Steareth-16, Steareth-21, Steareth-25, Steareth-27, Steareth-30, Steareth-40, Steareth-50, Steareth-80, Steareth-100, Steareth-200) are polyethylene glycol ethers of stearic acid.
They are waxy compounds. In cosmetics and personal care products, Steareth ingredients are used in the formulation of a wide variety of cosmetics and personal care products including makeup, lotions, personal cleanliness products and deodorants, as well as suntan, fragrance, skin, eye and hair care products.


The polyethylene glycol ethers of cetearyl alcohol are called Steareths.
The INCI names Steareth-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.
Steareth 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.
"Steareth-" refers to a PEG (polyethylene glycol) ether of cetearyl alcohol. The number after "Steareth-" indicates the average number of molecular units -CH2-CH2-O-.


Steareths (Steareth-2, Steareth-3, Steareth-4, Steareth-5, Steareth-50, Steareth-7, Steareth-8, Steareth-9, Steareth-10, Steareth-11, Steareth-12, Steareth-13, Steareth-14, Steareth-15, Steareth-16, Steareth-17, Steareth-18, Steareth-20, Steareth-22, Steareth-23, Steareth-24, Steareth-25, Steareth-27, Steareth-28, Steareth-29, Steareth-30, Steareth-33, Steareth-34, Steareth-40, Steareth-50, Steareth-55, Steareth-500, Steareth-80, Steareth-100) are liquids to waxy solids.


In cosmetics and personal care products, Steareth ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colors, and tints.
Steareths 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 Steareth ingredient.
For example, Steareth-2 is made by reacting Cetearyl Alcohol with an average of 2 molecules of ethylene oxide.


List of Steareth compounds:
Steareth-2
Steareth-3
Steareth-4
Steareth-5
Steareth-50
Steareth-7
Steareth-8
Steareth-9
Steareth-10
Steareth-11
Steareth-12
Steareth-13
Steareth-15
Steareth-16
Steareth-17
Steareth-18
Steareth-20
Steareth-22
Steareth-23
Steareth-25
Steareth-27
Steareth-28
Steareth-29
Steareth-30
Steareth-33
Steareth-34
Steareth-40
Steareth-50
Steareth-55
Steareth-500
Steareth-80
Steareth-100



USES and APPLICATIONS of STEARETH-50:
Steareth-50 is emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners and sunscreen products.
In cosmetics and personal care products, Steareth-50 ingredients are used in skin care products, moisturizers, hair conditioners, suntan and indoor tanning products and hair dyes, colours, and tints.


Further, Steareth-50 has great cleansing and foaming properties as well.
Steareth-50 is used in cosmetics as a surfactant and emulsifier.
Steareth-50 enables the production of oil-in-water emulsions.


Steareth-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.
Industry/Application Category of Steareth-50: Skincare (face care & cosmetics), Hair care and Body care, Textile, Home Care.


Steareth-50 is a emulsifier and is used to make Oil in Water emulsions.
Steareth-50 is a fatty alcohol polyglycol ether with 50 EO that is used as a surfactant in detergent, cosmetics and textile industry.
Steareth-50 is used in cosmetic products as emulsifier and surfactant.


Steareths-50 to -100, cleanses the skin and hair by helping water mix with oil and dirt so these substances dissolve they can rinse.
Steareth-50 is used emulsion-based cosmetic products like creams, lotions (especially sprayable lotions), foundations, hair conditioners and sunscreen products.
Steareth-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.
Steareth-50 helps to form emulsions by reducing the surface tension of the substances to be emulsified.


Steareth-50 is a polymer used in cosmetics formulations.
An oil-In-water emulsifier Steareth-50 can function in ointment, cream, gel and other cosmetics formulations.
Steareth-50 is used as reagent in liquid crystal nanoparticle formulations as an oral drug delivery system for liver specific distributions.


Very good emulsifying properties of Steareth-50 determine its use to create and stabilise water-in-oil emulsions – water particles suspended in the oil phase).
Emulsifiers, such as Steareth-50, accumulate at the phase boundary, thereby lowering the surface tension and allowing the fusion of phases with different chemical characteristics (water phase and oil phase).


Applications of Steareth-50: Emulsifier for cosmetics and wax etc.
These types of emulsifiers (dedicated for water-in-oil emulsions) are used, for example, for the production of ointments or dermocosmetics, where the water-soluble active substance requires homogeneous dispersion in the hydrophobic phase, which is usually an oil base.


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


-Cosmetic Uses Steareth-50:
*cleansing agents
*gel forming agents
*surfactants


-Cosmetic Uses:
*surfactants
*surfactant – emulsifying


APPLICATION AND FUNCTIONALITY OF STEARETH-50:
*Surfactant
*Solubilizing agent
*Dispersing agent
*Thickener
*Binder for granulation
*Further, it has great cleansing and foaming properties as well.



FUNCTION IN COSMETICS OF STEARETH-50:
*CLEANING:
Steareth-50 cleans skin, hair or teeth
*TENSID (EMULSIFYING) - EMULGATOR:
Steareth-50 allows the formation of finely divided mixtures of oil and water (emulsions)
*TENSID (CLEANING):
Detergent substance for cleaning skin, hair and/or teeth



PROPERTIES OF STEARETH-50:
*Good emulsifier for cosmetics.
*Good emulsifier of mineral oils and waxes.



FUNCTIONS OF STEARETH-50:
*Emulsifiers - helps immiscible liquids form a solution
*Cleansing/Foaming ingredients - remove dirt and grease, can create foam



PRODUCTS CONTAINING STEARETH-50:
*ointments,
*antiseptic ointments,
*lotions,
*oils,
*creams,
*dermocosmetics.



WHY IS STEARETH-50 USED IN COSMETICS AND PERSONAL CARE PRODUCTS?
The following functions have been reported for the Steareth ingredients.
Surfactant – cleansing agent – Steareth-16, Steareth-21, Steareth-25, Steareth-27, Steareth-30, Steareth-40, Steareth-50, Steareth-80, Steareth-100
Surfactant – emulsifying agent – Steareth-3, Steareth-5, Steareth-8, Steareth-14, Steareth-16, Steareth-21
Surfactant – solubilizing agent – Steareth-21, Steareth-25, Steareth-27, Steareth-30, Steareth-40, Steareth-50, Steareth-80, Steareth-100



FUNCTIONS OF STEARETH-50 IN COSMETIC PRODUCTS:
*CLEANSING:
Cleans skin, hair or teeth
*GEL FORMING:
Allows the production of a gel (gelatinous, semi-solid product)
*SURFACTANT - CLEANSING:
Surface-active agent to clean skin, hair and / or teeth



FUNCTIONS OF STEARETH-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



WHY IS STEARETH-50 IN COSMETICS AND PERSONAL CARE PRODUCTS?
Steareth-2 to -18, and Steareth-22, help to form emulsions by reducing the surface tension of the substances to be emulsified.
Steareth-22 is also used to decrease the thickness of liquid cosmetics and personal care products.
Steareth-20 to -40 help other ingredients to dissolve in a solvent in which they would not normally dissolve, and along with Steareths-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.



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



APPLICATION AND FUNCTIONALITY OF STEARETH-50 IS USED:
*Surfactant
*Solubilizing agent
*Dispersing agent
*Thickener
*Binder for granulation



FUNCTION OF STEARETH-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 teethsubstance for cleaning skin, hair and/or teeth.

PHYSICAL AND CHEMICAL PROPERTIES AND GENERAL CHARACTERISTICS OF STEARETH-50:
A chemical compound with the INCI (International Cosmetic Ingredient Nomenclature) name Steareth-50 is an ethoxylated cetearyl alcohol that belongs to a large group of non-ionic surfactants.
The chemical name of Steareth-50 is ethoxylated cetostearyl alcohol, and also macrogol cetostearyl ether.
The CAS number, the numerical designation assigned to Steareth-50, for Ceteareth-6 is 68439-49-6.



FUNCTIONS OF STEARETH-50:
*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 STEARETH-50 IN COSMETIC PRODUCTS:
*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)



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



BACKGROUND INFORMATION OF STEARETH-50 ON USE IN COSMETICS:
Surfactants are so-called detergent substances and have a major significance in cosmetics for the cleansing of the skin and hair.
Surfactants are substances which, based on their molecular structure, are able to reduce the surface tension of a liquid.
In this way it is possible that two actually not mixable substances, such as oil and water, can be finely mixed.

Because of their properties, surfactants have manifold uses in cosmetics: they can cleanse, produce foam and act as emulsifiers and mix substances with one another.
In shampoos, shower gels and soaps, surfactants are, for instance, used to wash fat and soil particles with water off from the body.
Surfactants are also used in toothpaste.
Here they promote during tooth cleaning the rapid and full dissolution and distribution of the paste in the mouth.

The surfactants used in cosmetic products are primarily produced synthetically on the basis of vegetable raw materials.
Surfactants are often used in combination to equally meet all desired requirements – like dissolution of soil and formation of foam in combination with a good skin tolerance – in the best possible manner.
Through a skilled combination of a surfactant – viewed on its own – with unfavourable skin tolerance but a very good soil removal property with a very mild, skin protecting surfactant altogether a product with good cleansing properties and the same good skin tolerances is obtained.



PHYSICAL and CHEMICAL PROPERTIES of STEARETH-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 STEARETH-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 STEARETH-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 STEARETH-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 STEARETH-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 STEARETH-50:
-Conditions for safe storage, including any incompatibilities:
*Storage conditions:
Tightly closed.
Dry



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



SYNONYMS:
9005-00-9
PEG-50 STEARYL ETHER
POLYETHYLENE GLYCOL (50) STEARYL ETHER
POLYOXYETHYLENE (50) STEARYL ETHER
STEARETH-50 [INCI]
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