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HIGH TEMPERATURE TEXTILES HIGH TEMPERATURE TEXTILES
Fire Blankets E-Glass
Avirtex Fire Blankets are made of 100% fiberglass fabric. The blankets are specially treated in order to The versatility of E-glass as a fiber makes it unique industrial textile material. Glass fiber in fabric form
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gain a better fireproof performance. They can quickly stop fire burning and prevent fire spreading. offers an excellent combination of properties from high strength to fire resistance. Wide ranges of yarn
Besides in putting out a fire, the blankets can also be used for escape in fire. Safety is the number one sizes and weave patterns provide huge number of design potential allowing the end user to choose the
priority, users need to ensure the material you choose meets your checklist of requirements. best combination for material performance, economics and flexibility.
• Excellent flame and heat resistance • Solvent and water resistance Dimensional Stability: E-glass fiber is a dimensionally stable engineering material. Glass fiber does
• Toxicity - meets most stringent requirements • UV resistant not stretch or shrink after exposure to extremely high or low temperatures. The maximum elongation for
• Abrasion resistant - no airborne fibers • User friendly - easy to handle E-glass at break is 4.8% with a 100% elastic recovery when stressed close to its point of rupture.
Moisture Resistance: Do not absorb moisture or change physically or chemically when exposed to water.
High Strength: The high strength-to-weight ratio of glass fiber makes it a superior material in applications
Silica where high strength and minimum weight are required.
Fire Resistance: E-glass fiber is an inorganic material and will not burn or support combustion. It
Silica consists of high temperature non-textured amorphous silica fiber yarn, woven into an extremely retains approximately 25% of its initial strength at 1022°F (550°C).
HIGH TEMPERATURE TEXTILES
strong fabrics. These non preshrunk textiles are ideal for applications with continuous use up to Chemical Resistance: Most chemicals have little or no effect on glass fiber. The inorganic glass
1250°C or occasional excursions up to 1400°C . These silica textiles are strong and easy to work with. textile fibers will not mildew, rot or deteriorate.
They exhibit good handleability and remain flexible in numerous high temperature applications. Electrical Properties: E-glass fiber is an excellent material for electrical insulation. The combination of
properties such as low moisture absorption, high strength, heat resistance and low dielectric constant
makes glass fiber fabrics ideal as reinforcement for printed circuit boards and insulating varnishes.
Thermal Conductivity: A low coefficient of thermal expansion combined with high thermal conductivity
properties makes glass fabric a dimensionally stable material that rapidly dissipates heat as compared
to asbestos and organic fibers.
Fiberglass / Thermoglass
They are extremely flexible and are resistant to most chemicals. Silica is a group IV metal oxide, which Fiberglass/Thermoglass’ fabric construction influences strength, pliability and appearance. The fabric
has good abrasion resistance, electrical insulation and high thermal stability. It is insoluble in all acids finish stabilizes the weave and/or improves its resistance to high temperature, moisture, rot, mildew,
with the exception of hydrogen fluoride (HF). flame and abrasion. It has a smooth loomstate finish which facilitates heat conduction and reflection
away from the point of heat contact. Strong and flexible, the fabric is ideal for wrapping around uneven
High silica materials were used only in aircraft and aerospace industries, but now they are used in equipment surfaces to protect unwanted heavy welding sprays.
various branches of industry, where heat resistant (up to 1000° C) materials are required. Glass fiber
products with a high SiO content are excellent high temperature insulators and can be used over long Properties of Fiberglass/Thermoglass Fabrics:
periods without losing the Style and Design properties and without melting and vaporising at temperatures Chemical Resistance: These fabrics will not rot, mildew or deteriorate. They resist most acids with the
of up to 1400º C and for a short period at temperatures of up to 1300º C.
exceptions of hydrofluoric acid and phosphoric acid.
Dimensional Stability: Fabrics will not stretch or shrink. Nominal elongation break is 3-4 percent. The
Shrinkage at temperature of 1000°C: average linear thermal expansion coefficient of "E" glass is 5.4 by 10.6 cm/cm/°C.
• For non-heat-treated materials 12 %,
• For heat-treated fabrics , depending on the treatment regime, < 7 % or < 3 %. Good Thermal Properties: Have a low coefficient of thermal expansion and relatively high thermal
conductivity. Glass fabrics will dissipate heat more rapidly than asbestos or organic fibers.
Application: High Silica Fabrics are designed for use: High Tensile Strength: Has a high strength-to-weight ratio.Yarn is twice as strong as steel wire.
• As insulation and protection applications, such as sealing, packaging, protective screens High Thermal Endurance: Cannot burn and is basically unaffected by curing temperatures used
• As drop cloth for welding and fire curtains industrial processing.Can retain approximately 50 percent of its strength at 700°F and as much as 25
• As reinforcement for acid resistant composites percent at 1000°F.
• For filtration of molten metal and furnace exhaust, etc. Electrical Insulation: High dielectrical strength and relatively low dielectrical constants make the
fabrics outstanding for electrical insulation purposes.
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