Weight Range: 30G–800G
Weave: Plain / Twill
Fiber: E-glass
Treatment: Silane Coating
Resin Compatibility: Epoxy / Polyester / Vinyl Ester
Max Heat Resistance: Up to 870°C
Applications: Automotive | Marine | Industrial | UAV
Silane-treated E-glass fibers exhibit excellent chemical stability, resisting attack from common acids, alkalis, and most organic chemicals. The silane surface treatment forms durable chemical bonds between the fibers and the resin, slowing moisture and chemical penetration at the fiber–matrix interface. This significantly enhances the composite’s service life in corrosive environments.
E-glass fibers are inherently inorganic and non-combustible, providing natural high-temperature resistance. The silane treatment does not reduce this property and even improves fiber–resin bonding under elevated temperatures. The final heat resistance of the composite depends on the resin system used (e.g., epoxy, phenolic, or halogen-free flame-retardant resins).
Silane coupling agents modify the fiber surface with organic functional groups, improving compatibility with common resins such as epoxy, polyester, and vinyl ester. This reduces surface tension, enhances resin wet-out and penetration speed, and ensures uniform impregnation and strong interfacial adhesion for superior composite performance.
Parameter | Details |
Fiber Type | E-glass |
Weight Range | 30G–800G |
Weave Type | Plain / Twill |
Surface Treatment | Silane-treated |
Key Properties | Moisture-resistant, high adhesion, heat-resistant, corrosion-resistant |
Processability | Easily impregnated with resin for strong bonding |
High-quality E-glass material ensures strength and durability
Silane treatment enhances moisture resistance and resin adhesion
Versatile applications: automotive, marine, industrial, UAV
Consistent quality ensures reliable performance every time.
Used for body reinforcement and structural repair, fiberglass fabric enhances vehicle durability and impact resistance.
Ideal for hulls, decks, and other composite marine structures, it offers excellent resistance to water and corrosion.
Commonly used in molds, insulation, and high-performance composite panels, it delivers superior dimensional stability.
Perfect for lightweight structural components such as wings, fuselages, and internal panels. It helps reduce overall weight.
Property | Typical Value |
Tensile Strength (MD/CD) | High, suitable for structural use |
Heat Resistance | Up to 550–870°C (depending on weave type) |
Chemical Resistance | Resistant to acids and alkalis |
Adhesion | Excellent bonding with epoxy, polyester, and vinyl ester resins |
(Optional: Add a visual chart comparing weight, strength, and resin compatibility)
Cut fabric to required size
Impregnate with resin of choice (epoxy, polyester, or vinyl ester)
Apply layer by layer, ensuring even resin distribution
Allow to cure under recommended temperature and pressure
Silane-treated E-glass fibers exhibit excellent chemical stability, resisting attack from common acids, alkalis, and most organic chemicals. The silane surface treatment forms durable chemical bonds between the fibers and the resin, slowing moisture and chemical penetration at the fiber–matrix interface. This significantly enhances the composite’s service life in corrosive environments.
E-glass fibers are inherently inorganic and non-combustible, providing natural high-temperature resistance. The silane treatment does not reduce this property and even improves fiber–resin bonding under elevated temperatures. The final heat resistance of the composite depends on the resin system used (e.g., epoxy, phenolic, or halogen-free flame-retardant resins).
Silane coupling agents modify the fiber surface with organic functional groups, improving compatibility with common resins such as epoxy, polyester, and vinyl ester. This reduces surface tension, enhances resin wet-out and penetration speed, and ensures uniform impregnation and strong interfacial adhesion for superior composite performance.
Parameter | Details |
Fiber Type | E-glass |
Weight Range | 30G–800G |
Weave Type | Plain / Twill |
Surface Treatment | Silane-treated |
Key Properties | Moisture-resistant, high adhesion, heat-resistant, corrosion-resistant |
Processability | Easily impregnated with resin for strong bonding |
High-quality E-glass material ensures strength and durability
Silane treatment enhances moisture resistance and resin adhesion
Versatile applications: automotive, marine, industrial, UAV
Consistent quality ensures reliable performance every time.
Used for body reinforcement and structural repair, fiberglass fabric enhances vehicle durability and impact resistance.
Ideal for hulls, decks, and other composite marine structures, it offers excellent resistance to water and corrosion.
Commonly used in molds, insulation, and high-performance composite panels, it delivers superior dimensional stability.
Perfect for lightweight structural components such as wings, fuselages, and internal panels. It helps reduce overall weight.
Property | Typical Value |
Tensile Strength (MD/CD) | High, suitable for structural use |
Heat Resistance | Up to 550–870°C (depending on weave type) |
Chemical Resistance | Resistant to acids and alkalis |
Adhesion | Excellent bonding with epoxy, polyester, and vinyl ester resins |
(Optional: Add a visual chart comparing weight, strength, and resin compatibility)
Cut fabric to required size
Impregnate with resin of choice (epoxy, polyester, or vinyl ester)
Apply layer by layer, ensuring even resin distribution
Allow to cure under recommended temperature and pressure
