Alkyl (C12-C14) glycidyl ether is a versatile chemical compound commonly used as a reactive diluent in epoxy resin systems.
It is characterized by a chain length of alkyl groups ranging from C12 to C14, contributing to its flexibility and performance in various applications.
The compound’s glycidyl ether structure provides reactive sites, making it effective in cross-linking and enhancing the properties of resin formulations.
CAS Number: 68609-97-2
EC Number: 271-846-8
Synonyms: Epoxide, (C12-C14) alkyl glycidyl ether, Glycidyl ether of C12-C14 alkanols, C12-C14 Epoxy compound, Alkyl glycidyl ether, (C12-C14) alkyl-2,3-epoxypropyl ether, Glycidyl ether of lauryl alcohol, Lauryl alcohol glycidyl ether, Lauryl-C14 glycidyl ether, Glycidyl C12-C14 ether, Alkyl-C12-C14-glycidyl ether, Alkyl Epoxy Ether, C12-C14 Glycidyl, C12-C14 Epoxy Glycidyl Ether, Lauryl-C14 Epoxy Ether, Epoxy Glycidyl Lauryl-C14, Glycidyl Lauryl-C14 Ether, C12-C14 alkyl epoxide, C12-C14 alkyl glycidyl epoxide.
APPLICATIONS
Alkyl (C12-C14) glycidyl ether is extensively used as a reactive diluent in epoxy resin systems to reduce viscosity and improve workability.
It enhances the flow and handling properties of epoxy formulations, making it valuable in coatings, adhesives, and sealants.
In coatings, Alkyl (C12-C14) glycidyl ether helps achieve smoother applications and reduces sagging, improving the final finish quality.
The compound provides flexibility in epoxy systems, which is essential for applications requiring impact resistance and durability.
Its use in adhesives enhances the bonding properties and extends the range of materials that can be bonded effectively.
Alkyl (C12-C14) glycidyl ether is widely applied in protective coatings for industrial equipment, providing chemical and moisture resistance.
In the construction industry, it is used in floor coatings to deliver durable, abrasion-resistant surfaces suitable for high-traffic areas.
This compound is also incorporated into marine coatings, where its resistance to saltwater and environmental degradation is critical.
Alkyl (C12-C14) glycidyl ether is utilized in composite materials as a flexibilizer, allowing for greater movement and reducing brittleness.
In electronics, it is employed in encapsulants and potting compounds to protect components from moisture, dust, and mechanical stress.
The compound’s flexibility and low viscosity make it suitable for applications where precise and consistent application is necessary.
In automotive applications, Alkyl (C12-C14) glycidyl ether is used in underbody coatings, providing corrosion resistance and durability.
The compound enhances the thermal stability of resins, making it suitable for applications that undergo temperature variations.
In adhesives for wood and furniture, it improves moisture resistance, protecting against warping and degradation.
Alkyl (C12-C14) glycidyl ether is also used in protective coatings for metal surfaces, where it contributes to long-lasting rust prevention.
In the manufacturing of sports equipment, it is applied in composite structures, providing a balance of flexibility and strength.
The compound’s resistance to chemicals makes it ideal for use in environments exposed to oils, solvents, and other corrosive substances.
It is a common component in coatings for industrial floors, ensuring durability and ease of cleaning in environments such as warehouses and factories.
In epoxy primers, Alkyl (C12-C14) glycidyl ether provides adhesion to metal surfaces, promoting better corrosion resistance.
Its application in marine environments includes boat hull coatings, where its resistance to algae and saltwater prolongs coating life.
In the electronics industry, it is used to encapsulate printed circuit boards, protecting them from environmental damage and extending their lifespan.
Alkyl (C12-C14) glycidyl ether finds application in sealants for automotive and aerospace sectors, offering flexibility and adhesion under extreme conditions.
It also enhances the impact resistance of resins, making it ideal for products that may experience mechanical stress or vibration.
In the production of epoxy adhesives, it contributes to flexible bonding solutions that perform well under dynamic loads.
The compound is used in coatings for pipes and tanks in chemical processing plants, where it provides resistance to acids and alkalis.
Alkyl (C12-C14) glycidyl ether’s compatibility with various resins allows it to be used in a range of formulations, enhancing product versatility.
The compound supports the development of UV-resistant coatings, making it suitable for outdoor applications where exposure to sunlight is high.
It is used in corrosion-resistant coatings for steel structures, protecting them from rust and environmental degradation.
In the marine industry, it is utilized in epoxy-based antifouling paints that resist the buildup of marine organisms on vessel hulls.
Alkyl (C12-C14) glycidyl ether’s role as a reactive diluent is critical in producing low-viscosity formulations that can be easily applied to large surfaces.
In flexible sealants, it provides elasticity, making it suitable for expansion joints and other dynamic areas.
The compound is also used in the creation of high-strength composite materials, enhancing performance in load-bearing applications.
It is a valuable component in adhesives used in woodworking, as it helps maintain bond integrity even in humid conditions.
In aerospace applications, Alkyl (C12-C14) glycidyl ether contributes to lightweight, durable coatings that withstand extreme environmental stresses.
Its role in the formulation of laminating resins is essential in industries where lightweight yet strong composites are required.
DESCRIPTION
Alkyl (C12-C14) glycidyl ether is a reactive, low-viscosity compound commonly used to modify and enhance epoxy resin systems.
It consists of alkyl groups with chain lengths ranging from C12 to C14, which provide flexibility to the resulting epoxy matrix.
The glycidyl ether group in its structure enables cross-linking, making it highly effective in improving mechanical properties of resins.
This compound acts as a reactive diluent, reducing viscosity and facilitating easier handling and application of epoxy formulations.
In addition to its role as a flexibilizer, Alkyl (C12-C14) glycidyl ether contributes to improved adhesion and impact resistance in coatings and adhesives.
Its compatibility with a variety of resin systems makes it a versatile additive in multiple applications, from coatings to composites.
Alkyl (C12-C14) glycidyl ether offers excellent chemical resistance, protecting treated surfaces from corrosive substances such as acids and solvents.
The compound’s low odor and favorable safety profile make it suitable for industrial and commercial use with minimal handling risks.
It provides UV stability, making it suitable for outdoor applications where long-term exposure to sunlight could otherwise degrade performance.
With its stable, reactive structure, Alkyl (C12-C14) glycidyl ether contributes to the longevity and durability of epoxy systems in demanding environments.
Its presence in resin formulations allows for flexible, crack-resistant coatings that can withstand temperature fluctuations and mechanical stress.
Alkyl (C12-C14) glycidyl ether is a preferred additive in systems that require a balance of rigidity and flexibility, supporting a wide range of industrial uses.
PROPERTIES
Appearance: Clear, colorless liquid
Odor: Mild characteristic odor
Solubility: Soluble in organic solvents; insoluble in water
Density: Approximately 0.88 g/cm³
Viscosity: Low-viscosity liquid, allowing for ease of mixing in resin systems
Boiling Point: 255-275 °C
Flash Point: Approximately 130 °C
Stability: Chemically stable under normal storage and handling conditions
Compatibility: Compatible with various resin systems, including epoxy and polyurethane
UV Stability: Good resistance to degradation under UV exposure
Chemical Resistance: Resistant to acids, alkalis, and solvents
Reactivity: Reactive sites enable cross-linking in epoxy systems, enhancing material properties
FIRST AID
Inhalation:
If inhaled, remove the person to fresh air and keep them comfortable for breathing.
Seek medical attention if respiratory symptoms persist or breathing becomes difficult.
Skin Contact:
In case of skin contact, wash thoroughly with soap and water.
If skin irritation or redness occurs, seek medical advice and discontinue exposure.
Remove any contaminated clothing to prevent further skin exposure.
Eye Contact:
If the compound comes into contact with the eyes, rinse immediately with plenty of water for at least 15 minutes.
Hold eyelids open during rinsing to ensure complete flushing.
Seek medical attention if eye irritation persists or vision is affected.
Ingestion:
If ingested, rinse the mouth with water and do not induce vomiting unless directed by medical personnel.
Seek immediate medical advice, providing information on the substance and amount ingested.
General First Aid:
Ensure that exposed individuals are moved away from the exposure source.
Provide responders with access to Safety Data Sheets (SDS) for information on handling and potential hazards.
HANDLING AND STORAGE
Handling:
Personal Protective Equipment (PPE):
Wear protective gloves, safety goggles, and appropriate protective clothing to prevent skin and eye exposure.
Use respiratory protection if working in areas with limited ventilation or potential exposure to vapor.
Ventilation:
Work in a well-ventilated area to prevent accumulation of vapors.
Employ local exhaust systems or mechanical ventilation to reduce airborne exposure.
Spill Prevention:
Handle the compound carefully to avoid spills and ensure containment in appropriate storage containers.
Clean up any spills promptly to avoid slip hazards and contamination.
Hygiene Measures:
Wash hands thoroughly after handling the compound and before eating, drinking, or smoking.
Avoid direct contact with skin and eyes, and do not inhale vapors.
Storage:
Storage Conditions:
Store in a cool, dry, well-ventilated area away from direct sunlight, heat, and sources of ignition.
Keep containers tightly sealed when not in use to prevent moisture absorption and contamination.
Temperature Control:
Avoid extreme temperatures during storage, particularly high heat, which may accelerate degradation.
Store at a temperature range recommended by the manufacturer to ensure stability.
Container Compatibility:
Use compatible containers, such as high-density polyethylene (HDPE) or metal, to prevent interaction with the compound.
Regularly inspect containers for leaks, corrosion, or damage that may compromise storage integrity.
Security Measures:
Restrict access to authorized personnel trained in handling and safety protocols.
Label storage containers clearly to ensure proper identification and hazard awareness.