Ceramic fiber paper/aluminum silicate paper:
1kg=1mm thickness*length 9m*width 0.61m
1kg=2mm thickness*length 4.5m*width 0.61m
1kg=3mm thickness*length 3m*width 0.61m
1kg=5mm thickness * length 1.7 meters * width 0.61 meters
Product Manual:
Paper constructed of aluminum silicate ceramic fibers is produced using loose cotton as the primary raw material, a very little amount of inorganic binder, and wet forming. Due to its exact manufacturing process, thickness and density are strictly controlled and fiber diffusion is consistent. with high temperature insulation, thermal shock resistance, chemical corrosion resistance, low thermal conductivity, and other qualities. It is portable and suitable for deep processing, making it practical for construction.
Features:
Low slag ball content, low thermal conductivity, high strength tear resistance, high flexibility, and good sound insulation performance.
Applications:
various industrial furnaces, high temperature sealing gaskets, muffler and heat insulation materials for car mufflers and exhaust pipes, production models of decorative glass, and materials for sealing expansion joints at the expansion joints between furnace doors and the body of the furnace. Asbestos substitutes include high-temperature heat insulation materials for asbestos ladles, cast buckets, intrusive nozzles, etc.
Product Size:
90000*610/1220*0.5mm
60000*610/1220*1mm
30000*610/1220*2mm
20000*610/1220*2mm
12000*610/1220*5mm
10000*610/1220*6mm
7500*610/1220*8mm
6000*610/1220*10mm
5000*610/1220*12mm
Also can be customized
Open flame burning is not permitted while using aluminum silicate fiber paper. Ceramic fiber paper will initially emit a tiny quantity of smoke and some odor when exposed to a temperature above 230°, with the exception of some inorganic components (which will dissipate right away after some time). This is due to the interior Although the toughness of the fiber paper will be somewhat worse as a result of high temperature carbonization of the binder, this does not affect the paper's ability to withstand high temperatures.