C12–C14 alcohol glycidyl ether, also known as AGE, is a clear, colorless, oily liquid with a mild odor.
C12–C14 alcohol glycidyl ether has low volatility, low toxicity, low color, excellent substrate and filler wetting ability.
C12-C14 alcohol glycidyl ether is a chemical compound that falls under the category of glycidyl ethers.
CAS Number: 68609-97-2
Molecular Formula: C48H96O6
Molecular Weight: 769.27
EINECS Number: 271-846-8
C12–C14 alcohol glycidyl ethers participates in the synthesis of high molecular weight poly(ethylene oxide)-b-poly(alkylglycidyl ether) diblock copolymers.
The recommended maximum dosage of C12–C14 alcohol glycidyl ether is 20% of the resin formulation.
C12–C14 alcohol glycidyl ether is typically derived from a mixture of alcohols with carbon chain lengths ranging from C12 to C14, which means they have between 12 and 14 carbon atoms in their molecular structure.
The term "glycidyl ether" indicates the presence of a glycidyl group (-CH2-CH-O-) in the molecule.
These glycidyl ethers are commonly used in various industrial applications, including as reactive diluents in epoxy resin formulations.
They can serve as a stabilizer, a viscosity modifier, or a co-reactant in epoxy systems.
C12–C14 alcohol glycidyl ether can improve the handling characteristics and performance of epoxy resins, making them more suitable for specific applications such as adhesives, coatings, and composite materials.
C12–C14 alcohol glycidyl ether is an organic chemical in the glycidyl ether family.
C12–C14 alcohol glycidyl ether is a mixture of mainly 12 and 14 carbon chain alcohols, also called fatty alcohols that have been glycidated.
C12–C14 alcohol glycidyl ether is an industrial chemical used as a surfactant but primarily for epoxy resin viscosity reduction.
C12–C14 alcohol glycidyl ether has the CAS number 68609-97-2 but the IUPAC name is more complex as it is a mixture and is 2-(dodecoxymethyl)oxirane;2-(tetradecoxymethyl)oxirane;2-(tridecoxymethyl)oxirane.
Other names include dodecyl and tetradecyl glycidyl ethers and alkyl (C12-C14) glycidyl ether.
C12–C14 alcohol glycidyl ether is a non-ionic surfactant that contains a hydrophilic head and a hydrophobic tail.
C12–C14 alcohol glycidyl ether is used in wastewater treatment, as well as in polycarboxylic acid synthesis.
C12–C14 alcohol glycidyl ether has been shown to be reactive and can form hydrogen bonds with other molecules.
C12–C14 alcohol glycidyl ether also has high solubility in water, which makes it suitable for use in high salt solutions. The hydrophobic effect of this molecule means it is more likely to dissolve in oils or fats than in water. This product exhibits fluorescence when illuminated with ultraviolet light and can be detected by magnetic resonance spectroscopy.
C12-C14 alcohol glycidyl ether is an organic chemical in the glycidyl ether family.
C12-C14 alcohol glycidyl ether is a mixture of mainly 12 and 14 carbon chain alcohols, also called fatty alcohols that have been
glycidated.
C12-C14 alcohol glycidyl ether is an industrial chemical used as a surfactant but primarily for epoxy resin viscosity reduction.
C12-C14 alcohol glycidyl ether has the CAS number 68609-97-2 but the IUPAC name is more complex as it is a mixture and is 2-(dodecoxymethyl)oxirane;2-(tetradecoxymethyl)oxirane;2-(tridecoxymethyl)oxirane.
Other names include dodecyl and tetradecyl glycidyl ethers and C12-C14 alcohol glycidyl ether.
A fatty alcohol mixture rich in C12-C14 alcohol glycidyl ethers is placed in a reactor with a Lewis acid catalyst.
Then epichlorohydrin is added slowly to control exotherm which results in the formation of the halohydrins.
This is followed by a caustic dehydrochlorination, to form C12-C14 alcohol glycidyl ether.
The waste products are water and sodium chloride and excess caustic soda.
One of the quality control tests would involve measuring the Epoxy value by determination of the epoxy equivalent weight.
C12-C14 alkyl glycidyl ether is an epoxy reactive diluent with low viscosity and toxicity.
C12-C14 alkyl glycidyl ether is used in many paint and coatings applications such as appliance paint, boat paint, building coating, car paint, paper coating, plastic coating, and rubber coating.
A fatty alcohol mixture rich in C12–C14 alcohol glycidyl ether is placed in a reactor with a Lewis acid catalyst.
Then epichlorohydrin is added slowly to control exotherm which results in the formation of the halohydrins.
This is followed by a caustic dehydrochlorination, to form C12-C14 alcohol glycidyl ether.
The waste products are water and sodium chloride and excess caustic soda.
One of the quality control tests would involve measuring the Epoxy value by determination of the epoxy equivalent weight.
C12–C14 alcohol glycidyl ether participates in the synthesis of high molecular weight poly(ethylene oxide)-bpoly(alkylglycidyl ether) diblock copolymers.
C12-C14 alcohol glycidyl ether is a clear, colorless, oily liquid with a mild odor.
C12-C14 alcohol glycidyl ether has low volatility, low toxicity, low color, excellent substrate and filler wetting ability.
The recommended maximum dosage of C12-C14 alcohol glycidyl ether is 20% of the resin formulation.
Aliphatic glycidyl ether, based on the epoxidation of C12-C14 aliphatic alcohol.
C12-C14 alcohol glycidyl ether is a mono-functional diluent used to reduce the viscosity of epoxy resin systems.
C12-C14 alcohol glycidyl ether provides good flexibility and adhesion on nonpolar surfaces and shows excellent wetting characteristics.
C12-C14 alcohol glycidyl ether is mainly as a reactive diluent for high viscosity epoxy resins, compatible in all concentrations with epoxy resin, and as toughening agents.
Widely used in high quality epoxy floor coatings, food grade epoxy paints, epoxy potting materials, casting materials, adhesives, insulation material and floor coatings.
C12-C14 alcohol glycidyl ether is a colorless transparent liquid.
C12-C14 alcohol glycidyl ether is mainly used as a reactive diluent for high viscosity epoxy resins, compatible in all concentrations epoxy resin, and as toughening agents.
C12-C14 alcohol glycidyl ether is used as specialty epoxy solvent used in the manufacture of epoxy resins and adhesives.
C12-C14 alcohol glycidyl ether is a complex mixture of synthetic ethers and heterocyclic compounds that generally conform to the formula: C48H96O6.
Reactive diluents like C12-C14 alcohol glycidyl ether are formulated to reduce the viscosity of typical epoxy resins without significantly impacting performance properties.
Incorporating reactive diluent C12-C14 alcohol glycidyl ether into your resin will improve handling and ease of application due to the reduced viscosity.
Reactive diluent C12-C14 alcohol glycidyl ether is broadly used in metal coatings, concrete coatings, repair and bonding compounds, adhesives and composites.
Reactive Diluents are epoxy group-containing functional products which are low viscosity C12–C14 alcohol glycidyl ethers that can react with the curing agents to become the part of the cross-linked epoxy system.
Reactive diluents are mainly used to reduce the viscosity of the base resin based on Bisphenol A, F and EPN resins to improve handling and ease of processing in various applications.
C12-C14 alcohol glycidyl ether is used in formulating solvent free paint and coating compounds as well as additives in combination with other polymers to improve adhesion, stabilization against degeneration reactions.
C12-C14 alcohol glycidyl ether can be also used to optimize performance properties such as impact strength, adhesion, flexibility, filler-loading and solvent resistance of the epoxy system.
C12-C14 alcohol glycidyl ether significantly lowers surface tension of standard aromatic liquid epoxy resins which results in excellent surface wetting, adhesion and lower viscosity at given filler loading.
The aliphatic chain of C12-C14 alcohol glycidyl ether reactive diluent typically increases pot life as well as flexibility (impact resistance).
Although the reactive diluent C12-C14 alcohol glycidyl ether limits the solvent resistance somewhat, acid resistance is improved.
C12-C14 alcohol glycidyl ether is an epoxy reactive diluent with low viscosity and toxicity.
C12-C14 alcohol glycidyl ether is used in many paint and coatings applications such as appliance paint, boat paint, building coating, car paint, paper coating, plastic coating, and rubber coating.
C12-C14 alcohol glycidyl ether is used as a reactive diluent for epoxy resins.
C12-C14 alcohol glycidyl ether is used as a resin and polymer manufacturing intermediate.
Applications of C12-C14 alcohol glycidyl ether include a wide variety of coatings for the automotive and civil engineering industries.
C12-C14 alcohol glycidyl ether provides good flexibility and adhesion on nonpolar surfaces and shows excellent wetting characteristics.
Mainly as a reactive diluent for high viscosity epoxy resins,compatible in all concentrations with epoxy resin, and as toughening agents.
Widely used in high quality epoxy floor coatings, food grade epoxy paints, epoxy potting materials, casting materials, adhesives, insulation material and floor coatings.
C12-C14 alcohol glycidyl ether is an epoxy reactive diluent with low viscosity and toxicity.
C12-C14 alcohol glycidyl ether is used in many paint and coatings applications such as appliance paint, boat paint, building coating, car paint, paper coating, plastic coating, and rubber coating.
C12-C14 alcohol glycidyl ether is mainly applied as diluting agent for epoxy floor coating, diluting the epoxy coating of food grade products.
Aliphatic glycidyl ether is made from C12~14 alkyl alcohol and Epichlorohydrin by scientific technique, its Chemical name is C12~14 alkyl glycidyl ether(AGE).
C12-C14 alcohol glycidyl ether is used to lower the viscosity of liquid epoxy resin, to be used as floor material, concrete repairing material, filling material, flexility material, embedding material, to be used in diluent and tougheness improvement, and winding–forming.
C12-C14 alcohol glycidyl ether provides good flexibility and adhesion on nonpolar surfaces and shows excellent wetting characteristics.
C12-C14 alcohol glycidyl ether is mainly as a reactive diluent for high viscosity epoxy resins,compatible in all concentrations with epoxy resin, and as toughening agents.
C12-C14 alcohol glycidyl ether is widely used in high quality epoxy floor coatings, food grade epoxy paints, epoxy potting materials, casting materials, adhesives, insulation material and floor coatings.
C12-C14 alcohol glycidyl ether acts as a solvent and curing agent. AGE has low virulence, slight color and low viscosity.
C12-C14 alcohol glycidyl ether is well miscible with all kinds of epoxy resins, used in epoxy resin products to decrease their viscosity.
C12-C14 alcohol glycidyl ether has active epoxy group which can join cure reaction.
C12–C14 alcohol glycidyl ether has low volatility which improves the performance and quality of the product.
C12-C14 alcohol glycidyl ether improves flexibility of curing products.
C12-C14 alcohol glycidyl ether is projected to grow at a CAGR of 4.5% during the 2021-2030 period.
The increasing demand for adhesives and sealants, composites, marine, and protective coatings, potting, and encapsulation in end-users such as automotive, aerospace, and defense industries is expected to drive the growth of the market over the forecast period.
C12-C14 alcohol glycidyl ether is a low boiling point, high molecular weight alcohol of glycerine.
C12-C14 alcohol glycidyl ether has good thermal stability and neutral color which makes it ideal for use in the production of epoxy resin systems.
Industrial grade C12-C14 alcohol glycidyl ether is a type of nonionic surfactant that has the ability to reduce surface tension between water and oil.
C12–C14 alcohol glycidyl ether can be used in cleaning products, paints, coatings, adhesives, and sealants for marine applications.
C12-C14 alcohol glycidyl ether is used in potting and encapsulation due to its high adhesion properties.
C12-C14 alcohol glycidyl ether is highly reactive, hence they cure quickly at room temperature when exposed to atmospheric moisture.
C12-C14 alcohol glycidyl ether has a very low viscosity which makes it easy for mixing with other resins such as epoxy resin or polyurethane (PU).
C12-C14 alcohol glycidyl ether is driven by the rise in demand for adhesives and sealants.
The containment of hazardous solvents such as benzene, xylene, toluene, etc., has led to a new generation of water-based adhesive formulations which includes alkyl C12-C14 glycidyl ether.
Further, increasing environmental concerns globally have also contributed to this development.
C12-C14 alcohol glycidyl ether is a form of an organic compound which is used extensively in chemical, industrial and construction.
The major usage is defined as for polymerization processes as an industrial grade monomer, used as sealant in construction related material and as an adhesive for various purposes.
C12-C14 alcohol glycidyl ether is logically a by product of an condensation reaction between glycidol and allyl alcohol.
Because of the presence of both epoxide and an alkene, they can be manipulated to react separately in a group while maintaining the other processes intact.
C12-C14 alcohol glycidyl ether may cause sensitization by inhalation and skin contact.
C12–C14 alcohol glycidyl ether is a glycidyl ether compound with a general chemical structure similar to this:
CH3-(CH2)n-O-CH2-CHO, where 'n' represents the number of carbon atoms in the alkyl chain (C12 to C14 in this case).
C12–C14 alcohol glycidyl ether is known for its epoxy functionality, meaning it contains epoxy groups (oxirane rings) within its molecular structure.
These epoxy groups are reactive and can undergo cross-linking reactions with amines, acids, or other compounds, forming strong and durable thermosetting materials.
Chemical compounds like C12–C14 alcohol glycidyl ethers may be subject to regulatory restrictions and guidelines in different countries due to potential health and environmental concerns.
Manufacturers and users should be aware of and comply with these regulations.
There can be variations of C12-C14 alcohol glycidyl ether based on the specific carbon chain lengths, purity levels, and other properties.
These variations may be tailored for specific applications or market requirements.
Density: 0.89 g/mL at 25 °C(lit.)
vapor pressure: 0.018Pa at 20℃
refractive index: n20/D 1.447(lit.)
Flash point: >230 °F
Water Solubility: 483μg/L at 30℃
LogP: 6 at 20℃
C12-C14 alcohol glycidyl ether is limited evidence of a carcinogenic effect.When you use it , wear suitable protective clothing and gloves.
C12-C14 alcohol glycidyl ether is used as a viscosity reducing modifier in epoxy resin formulations.
C12-C14 alcohol glycidyl ether has low color and provides excellent substrate and filler wetting ability.
C12-C14 alcohol glycidyl ether is useful for resinous floor toppings, casting compounds, coatings, adhesives and electrical encapsulation systems.
C12-C14 alcohol glycidyl ether is mainly applied to diluting agent, toughener, epoxy floor coating, diluting the epoxy coating of food grade.
Combined with liquid epoxy resin, suitable for epoxy embedding material, casting material, encapsulating material, coating material, and adhesive.
C12-C14 alcohol glycidyl ether provides good flexibility and adhesion on nonpolar surfaces and shows excellent wetting characteristics.
Mainly as a reactive diluent for high viscosity epoxy resins, compatible in all concentrations with epoxy resin, and as toughening agents.
Widely used in high quality epoxy floor coatings, food grade epoxy paints, epoxy potting materials and floor coatings.
C12-C14 alcohol glycidyl ether is formulated under the guidance and assistance of talented researchers who have a wide knowledge in this.
C12-C14 alcohol glycidyl ether is able to improve the properties of flexibility and adhesion of the cured resin.
C12-C14 alcohol glycidyl ether is mostly appropriate in textile industries.
C12-C14 alcohol glycidyl ether aids as a monomer for polymerization reactants.
C12-C14 alcohol glycidyl ether is an agent of a stabilizer for chlorinated compound.
C12–C14 alcohol glycidyl ether is an epoxy reactive diluent with low viscosity and toxicity.
C12-C14 alkyl glycidyl ether is used in many paint and coatings applications such as appliance paint, boat paint, building coating, car paint, paper coating, plastic coating, and rubber coating.
C12–C14 alcohol glycidyl ethers are a class of compounds characterized by the presence of the glycidyl group (-CH2-CH-O-) within their molecular structure.
This group is also known as an epoxy group or oxirane ring.
C12–C14 alcohol glycidyl ethers are widely used in the chemical industry for various applications due to their ability to undergo polymerization reactions, which result in the formation of thermosetting materials with excellent mechanical and chemical properties.
The epoxy functionality in C12-C14 alkyl glycidyl ethers makes them highly reactive.
When C12-C14 alkyl glycidyl ethers are mixed with curing agents such as amines, acids, or anhydrides, they undergo a chemical reaction called epoxy curing.
This curing process leads to the formation of a cross-linked polymer network, resulting in materials with enhanced strength and durability.
C12-C14 alkyl glycidyl ethers are commonly used as key components in epoxy resin systems.
Epoxy resins are versatile and find applications in various industries, including construction, aerospace, electronics, automotive, and more.
They are used for coatings, adhesives, composites, and encapsulation due to their excellent adhesive properties, chemical resistance, and mechanical strength.
C12-C14 alkyl glycidyl ether, and their properties can vary based on their chemical structure and the length of the alkyl or aryl chains attached to the glycidyl group.
Some common glycidyl ethers include C12-C14 alkyl glycidyl ether, phenyl glycidyl ether, and the C12-C14 alcohol glycidyl ether mentioned earlier.
Each type may have unique characteristics and applications.
C12-C14 alkyl glycidyl ethers like the C12-C14 alcohol glycidyl ether, can also serve as solvents or diluents in epoxy formulations.
They help reduce the viscosity of epoxy resins, making them easier to handle and apply.
The choice of C12-C14 alkyl glycidyl ether can impact the curing kinetics and final properties of the epoxy system.
C12-C14 alkyl glycidyl ethers offer valuable properties, it's essential to consider their potential environmental and health impacts.
Some glycidyl ethers may be subject to regulations and restrictions due to concerns about toxicity and environmental persistence.
C12-C14 alkyl glycidyl ether's important to use and dispose of these compounds responsibly and in compliance with relevant regulations.
The development of new C12-C14 alkyl glycidyl ethers and epoxy formulations is an active area of research and innovation.
Scientists and engineers continually seek to improve epoxy materials for a wide range of applications, from advanced composites to high-performance coatings.
C12-C14 alkyl glycidyl ethers are used in the synthesis of pharmaceutical compounds due to their versatile chemical reactivity.
C12-C14 alkyl glycidyl ethers can serve as surfactants or emulsifiers in various formulations, including personal care products and industrial processes.
C12-C14 alkyl glycidyl ether can be used as additives in polymers to modify properties like flexibility, adhesion, and impact resistance.
Chemists can modify C12-C14 alkyl glycidyl ethers through various reactions to create specialized derivatives with specific properties.
These derivatives may have applications in niche industries and research.
C12-C14 alkyl glycidyl ether, it's crucial to follow safety guidelines and understand potential health hazards.
C12-C14 alkyl glycidyl ether may be irritants to the skin, eyes, and respiratory system.
Proper ventilation, personal protective equipment, and safe handling practices are essential to minimize exposure.
Regulatory agencies in different countries, such as the Environmental Protection Agency (EPA) in the United States, often regulate the use, labeling, and disposal of C12-C14 alkyl glycidyl ethers and related compounds.
C12-C14 alkyl glycidyl ether users should be aware of and adhere to these regulations to ensure safe and compliant use.
Ongoing research seeks to develop C12-C14 alkyl glycidyl ethers and epoxy resin systems with improved performance, sustainability, and reduced environmental impact.
This includes the exploration of bio-based or renewable sources for glycidyl ethers.
The properties of C12-C14 alkyl glycidyl ethers can vary significantly based on their chemical structure and manufacturing process.
C12-C14 alkyl glycidyl ether's essential to select the appropriate glycidyl ether for a specific application based on the desired properties and performance criteria.
Various industry standards and specifications exist for C12-C14 alkyl glycidyl ethers and epoxy resin systems, especially in sectors such as aerospace and electronics.
Adhering to these standards is essential to ensure product quality and safety.
C12-C14 alkyl glycidyl ether, it's important to consider their compatibility with other chemicals and additives in the system.
Compatibility testing is often performed to assess how different components interact and whether they achieve the desired properties.
Proper disposal and waste management of C12-C14 alkyl glycidyl ether and epoxy formulations are critical to prevent environmental contamination.
Many regions have specific guidelines for the disposal of hazardous materials, and adherence to these guidelines is necessary.
Uses
As an epoxy modifier C12-C14 alkyl glycidyl ether is classed as an epoxy reactive diluent.
C12-C14 alkyl glycidyl ether is one of a family of glycidyl ethers available used for viscosity reduction of epoxy resins.
These are then further formulated into coatings, sealants, adhesives, and elastomers.
Resins with this diluent tend to show improved workability.
C12-C14 alkyl glycidyl ether is also used to synthesize other molecules.
The use of the diluent does effect mechanical properties and microstructure of epoxy resins.
C12-C14 alkyl glycidyl ether is primarily used as a viscosity reducing modifier in epoxy resin formulations.
C12-C14 alkyl glycidyl ether is useful for resinous floor toppings, casting compounds, coatings, adhesives and electrical encapsulation systems.
C12-C14 alkyl glycidyl ether is used as a chemical intermediate.
C12-C14 alkyl glycidyl ether is used in the following products: fillers, putties, plasters, modelling clay, coating products, adhesives and sealants and polymers.
C12-C14 alkyl glycidyl ether has an industrial use resulting in manufacture of another substance (use of intermediates).
C12-C14 alkyl glycidyl ether is used in the following areas: formulation of mixtures and/or re-packaging and mining.
C12-C14 alkyl glycidyl ether is used for the manufacture of: chemicals, plastic products, rubber products, mineral products (e.g. plasters, cement), electrical, electronic and optical equipment and machinery and vehicles.
Release to the environment of C12-C14 alkyl glycidyl ether can occur from industrial use: in the production of articles, formulation of mixtures and as an intermediate step in further manufacturing of another substance (use of intermediates).
Other release to the environment of C12-C14 alkyl glycidyl ether is likely to occur from: indoor use.
C12-C14 alkyl glycidyl ether is often used as a reactive diluent or co-monomer in epoxy resin formulations.
C12-C14 alkyl glycidyl ether can reduce the viscosity of the epoxy system, making it easier to handle and apply.
C12-C14 alkyl glycidyl ether is used in the formulation of epoxy-based adhesives, which are valued for their high strength, chemical resistance, and durability.
These adhesives find applications in various industries, including construction, automotive, and aerospace.
In the field of coatings, this glycidyl ether can be used as a modifier to enhance the performance of epoxy-based coatings.
C12-C14 alkyl glycidyl ether can improve adhesion, impact resistance, and corrosion resistance.
C12-C14 alcohol glycidyl ether can be used in the manufacture of composite materials, where its epoxy functionality is essential for bonding and reinforcement.
Glycidyl ethers, including C12-C14 alcohol glycidyl ether, are often used as components in epoxy resin formulations.
They serve several purposes in epoxy systems:
They reduce the viscosity of epoxy resins, making them easier to handle and apply.
Glycidyl ethers react with curing agents (e.g., amines or acids) to form cross-linked networks, imparting strength and durability to epoxy products.
They can modify the mechanical, thermal, and chemical properties of the cured epoxy, depending on the specific glycidyl ether used.
C12-C14 alkyl glycidyl ether is employed in the formulation of epoxy-based adhesives.
These adhesives are known for their high bond strength and resistance to various environmental conditions, making them suitable for bonding a wide range of materials in industries like automotive, construction, and aerospace.
C12-C14 alkyl glycidyl ether can be used in epoxy-based coatings, such as protective coatings for industrial equipment, floors, and pipelines.
C12-C14 alkyl glycidyl ethers provide excellent corrosion resistance, chemical resistance, and durability.
In the aerospace, automotive, and sporting goods industries, C12-C14 alcohol glycidyl ether can be used in the production of composite materials.
Epoxy composites are valued for their lightweight, high-strength properties and are used to manufacture components like aircraft parts, automotive body panels, and sporting equipment.
In the electronics industry, glycidyl ethers are used to encapsulate electronic components, providing protection against moisture, chemicals, and physical damage.
Epoxy-based sealants are used in construction and manufacturing for sealing joints and gaps.
C12-C14 alcohol glycidyl ether can be part of the formulation to enhance adhesive and sealing properties.
In the molding industry, epoxy molding compounds are used for encapsulating electronic components and creating molded parts with excellent dimensional stability and thermal properties.
C12-C14 alkyl glycidyl ether can be used to treat fibers, enhancing their compatibility with epoxy resins.
These treated fibers are then used to reinforce epoxy composites, improving their strength and stiffness.
C12-C14 alkyl glycidyl ethers are also used in research and development settings to create new epoxy formulations with tailored properties for specific applications.
C12-C14 alkyl glycidyl ethers are used in marine applications, such as boat building and repair.
They provide a strong and water-resistant bond, making them suitable for laminating fiberglass and other materials.
C12-C14 alkyl glycidyl ethers are used for aircraft components, including wings, fuselages, and interior structures.
These materials offer high strength-to-weight ratios, which are critical in aviation.
C12-C14 alkyl glycidyl ether are used in automotive manufacturing.
They can be found in components like lightweight carbon fiber-reinforced composites, structural adhesives for vehicle assembly, and coatings for engine parts.
C12-C14 alkyl glycidyl ethers are used in the production of printed circuit boards (PCBs).
They serve as an insulating material and help protect electronic components from moisture and environmental factors.
C12-C14 alkyl glycidyl ethers are used by artists and craftsmen for creating sculptures, jewelry, and various art pieces.
They are valued for their clarity, durability, and ease of use in casting and coating applications.
Epoxy-based coatings and adhesives can be found in various consumer products, such as appliances, sporting goods, and home improvement materials.
In the renewable energy sector, C12-C14 alkyl glycidyl ether are used in wind turbine blades and solar panel manufacturing due to their lightweight and durable properties.
C12-C14 alkyl glycidyl ether, when appropriately modified and cured, can be used as coatings in food packaging materials, providing a protective barrier and improving packaging integrity.
C12-C14 alkyl glycidyl ether are commonly available for DIY home repairs, including fixing cracks in concrete, repairing leaky pipes, and patching holes in various materials.
C12-C14 alkyl glycidyl ethers continue to be integral in the development of advanced materials, including high-performance composites, coatings with enhanced properties, and nanomaterials.
Ongoing research focuses on developing C12-C14 alkyl glycidyl ethers from renewable sources, aligning with green chemistry principles to reduce environmental impact.
C12-C14 alkyl glycidyl ether users should be aware of regulations and guidelines regarding the use of glycidyl ethers, especially in sensitive applications like food contact materials or medical devices.
Compliance with these regulations is crucial to ensure product safety and consumer health.
Safety Considerations:
As with any chemical compound, it is essential to follow safety guidelines and use appropriate protective measures when handling C12-C14 alcohol glycidyl ether.
This includes wearing appropriate personal protective equipment (PPE) and working in a well-ventilated area to minimize exposure.
C12-C14 alcohol glycidyl ether can be irritating to the skin and eyes upon contact.
Skin exposure may result in redness, itching, or dermatitis, while eye contact can cause irritation, redness, and discomfort.
Prolonged or repeated exposure may worsen these effects.
Inhalation of vapors or mists of C12-C14 alcohol glycidyl ether may irritate the respiratory system, leading to symptoms such as coughing, shortness of breath, and throat irritation.
C12-C14 alkyl glycidyl ether may also cause headaches or dizziness if exposed to high concentrations in poorly ventilated areas.
When improperly handled or stored, C12-C14 alkyl glycidyl ethers can undergo hazardous reactions, such as polymerization or decomposition, especially when exposed to elevated temperatures or incompatible substances.
Synonyms
68609-97-2
Lauryl glycidyl ether
DODECYL GLYCIDYL ETHER
Glycidyl Lauryl Ether
2-(dodecoxymethyl)oxirane
N-Dodecyl glycidyl ether
2-[(Dodecyloxy)methyl]oxirane
Ether, dodecyl 2,3-epoxypropyl
((Dodecyloxy)methyl)oxirane
Propane, 1-(dodecyloxy)-2,3-epoxy-
Oxirane, ((dodecyloxy)methyl)-
laurylglycidylether
dodecylglycidyl ether
CCRIS 2635
HSDB 5462
1-Dodecyl glycidyl ether
EINECS 219-554-1
[(Dodecyloxy)methyl]oxirane
DTXSID0025494
Oxirane, [(dodecyloxy)methyl]-
UNII-84653J97E3
Oxirane, 2-((dodecyloxy)methyl)-
84653J97E3
2-((Dodecyloxy)methyl)oxirane
Oxirane, 2-[(dodecyloxy)methyl]-
C12Ge cpd
glycidyl dodecyl ether
DSSTox_CID_5494
DENACOL EX 192
2-(dodecyloxymethyl)oxirane
DSSTox_RID_78656
DSSTox_GSID_28774
SCHEMBL15970
DTXCID605494
GLYCIDYL N-DODECYL ETHER
CHEMBL1574716
2-[(Dodecyloxy)methyl]oxirane #
Tox21_200787
Tox21_303452
MFCD00022344
STL453740
DODECYL ALCOHOL GLYCIDYL ETHER
AKOS024332807
DODECYL 2,3-EPOXYPROPYL ETHER
LS-1057
1-DODECYL GLYCIDYL ETHER [HSDB]
NCGC00091870-01
NCGC00091870-02
NCGC00257384-01
NCGC00258341-01
1,2-EPOXY-3-(DODECYLOXY)PROPANE
AS-60945
CAS-2461-18-9
CAS-68609-97-2
CS-0320613
G0448
T72150
6-AMINO-2-METHYL-2-HEPTANOLHYDROCHLORIDE
Q27269499
