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STYLE 142 is woven from 96% SiO2 silica fibers. These fabrics are time tested and proven to perform in extreme heat condition. These are highly resistant to corrosion and chemical attack. Excellent thermal insulation and electrical resistance capabilities. Silica fabrics are resistant to temperature of 1000°C and resist up to 1400°C for a short period of time. Silica fabrics can be a protection device in case of a fire. These fabrics have low thermal conductivity, high resistance to thermal shock and inert to chemical reagents, resistance to organic and chemical acids in any concentration even at high temperatures except hydrofluoric, phosphoric and hydrochloric acid.
|Composition – SiO2||%||94-96||94-96||94-96||94-96|
|Loss on Ignition||%||7-12||7-12||7-12||7-12|
|Weave||Satin||8/3 Satin||8/3 Satin||12/5 Satin||12/5 Satin|
|Tensile Strength (N-warp)||Kgf||1078 (110)||1274 (130)||1764 (180)||1764 (180)|
|Tensile Strength (N-weft)||Kgf||784 (80)||980 (100)||1372 (140)||1372 (140)|
|Coating||Vermiculite 2 side||Vermiculite 2 side|
|Style 142 (600S)||Style 142 (600V)||Style 142 (1000S)||Style 142 (1000V)|
|Thickness||mm||12.5 to 50.0|
|Max. Working Temperature||°C||1260|
|Loss on Ignition||%||10|
STYLE 260 Ceramic Needle Blanket is lightweight manufactured from refractory ceramic fibers, the special spinning method applied in manufacturing these blankets offer high flexibility and insulating properties.
STYLE 260 these are also called needle blankets and are purely inorganic. Does not fume and resistance to most chemicals except hydrofluoric, phosphoric acid and concentrated alkalis. They retain physical and thermal properties even in wet condition.
STYLE 260 is non combustible and it’s approved for use against cellulosic and hydrocarbon fires and for dry wrapping of structural steel.
|Temperature Resistance Fabric||°C||750|
|Temperature resistance Coating||°C||200|
|Coating Weight||gr/m²||1 x 70|
STYLE 225 is used for higher temperature exposure; textured e-glass products are used with an added high temperature treatment. An inorganic finish is applied to the surface of the fabric, giving the fabric temperature resistance up to 750°C. For additional strength and support in applications where fabrics will be subjected to high mechanical stress, stainless steel threads may be woven into the fabric. E-glass can be treated with different coatings or finishes to precisely meet customer’s specifications. Among the possibilities; reflective or water resistant surfaces, enhanced cut resistance and increased thermal and mechanical resistance for higher performance in high temperature applications such as welding.
|Thickness||mm||3, 4,5 & 6|
|Max. Working Temperature||°C||550|
|Loss on Ignition||%||10|
STYLE 500 fiberglass fabric has excellent resistance to high temperature superior mechanical strength provides acoustics insulation and is woven from texturized e-glass fibers, the texturized fibers provide a smooth shiny finished on the fabric. Can be used on variety of applications. The properties of fiberglass can be improved with special coatings and heat treatment.
STYLE 500 has perfect insulating characteristics as well as excellent abrasion and tear resistance.
|S – 500||E-glass woven fabric|
|S – 500S||Silicone coated|
|S – 500V||Vermiculite coating|
|Max. Working Temperature||°C||1000|
|Thermal Conductivity ( @ average of 850°C)||wmk||0.2|
|Loss on Ignition ( @ average of 850°C)||%||8|
STYLE 500M non asbestos textiles are manufactured from special untexturized filament yarn. This is manufactured from inorganic refractory oxides in fibrous form having composition of Alumina, Silica and some special additives. These yarns are closely woven in power looms to manufacture textile.
STYLE 500M are highly resistant. These are electrically and thermally insulating. These are thermally stable and does not become brittle and loss its properties at elevated temperature. This is extremely suitable for heat shield.
STYLE 500M non asbestos cloths is finally chemically treated with microlite compound to make the cloth fire retardant & molten resistant. If required this non asbestos cloth can be treated with rubber compound which can be graphite or non graphitic.
STYLE 500M textile products are environment friendly, non toxic and non health hazardous. These textiles can effectively be used in gaseous applications as well as in liquid and in viscous chemicals but are suitable for static applications only.
|Composition – Al2O3||%||42-46|
|Max. Working Temperature||°C||1260|
|Thermal Conductivity (@ average of 1100°C)||W/m-°K||0.18|
|Effective under pH range||pH||2-12|
|Leachable Chloride content||ppm||<100|
|Loss on Ignition (@average of 1200°C)||%||15max.|
|Linear Shrinkage (@ average 1200°C)||%||3|
|Thickness||mm||2.0 to 6.0|
STYLE 550 Ceramic Fabrics are manufactured by weaving ceramic yarns. These yarns are manufactured from inorganic refractory oxides in fibrous from having composition of alumina, silica and some special additives. These are either e-glass reinforced or SS wire reinforced. These yarns are closely woven in power looms to manufacture the textile.
STYLE 550 is available with special chemical treatment which will not only make the product flame proof/fire retardant but also will increase the temperature resistance up to 1400°C.
STYLE 550 conforms to ISO14000 norms and is environmentally friendly, non-toxic and non health hazardous. Ceramic products conform to physical parameter including dimensions to IS 14656. There are no specific standards for ceramic fibre rope but are generally covered under ASTM C892.
|S – 550||Plain E-Glass reinforced inter-woven ceramic fabric.|
|S – 550ET||E-Glass reinforced impregnated with Intherm® to enhance abrasion resistance and density.|
|S – 550EV||E-Glass reinforced impregnated with special synthetic dispersion to enhance density and temperature resistance.|
|S – 550ST||Stainless Steel wire reinforced impregnated with Intherm® to enhance abrasion resistance and density.|
|S – 550SV||Stainless Steel wire reinforced impregnated with special synthetic dispersion to enhance density and temperature resistance.|