| Customization: | Available |
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| CAS No.: | 10217-34-2 |
| Formula: | C14h28o4si |
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Siwin-EH232
2-(3, 4-epoxycyclohexyl)ethyltriethoxysilane
Equivalents| Application |
"Glass fiber/glass fabric composites: These materials find extensive use in the automotive, aerospace, and construction industries, where they are valued for their strength, lightweight properties, and resistance to corrosion. They are commonly used in the production of car bodies, aircraft components, and building structures. Additionally, they serve as a vital ingredient in foundry resins, which are used in the casting of metals and alloys. Sealants and adhesives: The use of glass fiber/glass fabric composites in sealants and adhesives enhances their performance by improving adhesion, flexibility, and durability. They are used in a variety of applications, including sealing of joints, gaps, and cracks, as well as in the production of adhesives for bonding various materials. Mineral filled composites: These composites are used in the improvement of the mechanical properties of polymers, such as their flexural strength, tensile strength, impact strength, and modulus of elasticity. They are also used for the pretreatment of fillers and pigments, which helps in improving their dispersion and compatibility with the polymer. Paints and coatings: Glass fiber/glass fabric composites are used in paints and coatings as an additive and as a primer to improve adhesion to the substrate. They provide a tough, durable, and corrosion-resistant coating that extends the shelf life of the coatings, especially in comparison to aminosilanes in polyurethanes. Improved mechanical properties: The addition of glass fiber/glass fabric composites to polymers significantly improves their mechanical properties, making them more durable and resistant to stress and impact. This is particularly beneficial in applications where the materials are exposed to high levels of stress and wear. Improved moisture and corrosion resistance: The presence of glass fiber/glass fabric composites in polymers enhances their resistance to moisture and corrosion, making them suitable for use in environments where these factors are a concern. This resistance is crucial in ensuring the longevity and reliability of the materials in use. Enhances wet electrical properties: The use of glass fiber/glass fabric composites in epoxy-based encapsulate and packaging materials improves their wet electrical properties, such as dielectric constant and volume resistivity. This is essential in ensuring the proper functioning of electrical components and devices. Improved electrical properties: The addition of glass fiber/glass fabric composites to polymers enhances their electrical properties, making them more suitable for use in applications where high electrical performance is required. This improvement is crucial in ensuring the efficiency and reliability of electrical components and devices." |
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| Package/Storage |
210L Iron Drum: 200kg/drum 1000L IBC Container: 1000kg/container |
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