Our mat is the most competitive and the best in quality over the world, which has been proven by lots of customers in many countries. Our e-glass needled mat is a mechanically bonded glass fiber insulation blanket of uniform density supplied in thicknesses of 1/8" , 1/4 ", 1/2", and 1" that offers reliable, superior performance for continuous operating temperatures up to 1000 degrees f (538 degrees c) and excursions to 1200 degrees f (649 degrees c). The e-glass needled mat is manufactured from a well-controlled assortment of long textile glass fibers to assure uniform mechanical bonding with no additional binders, thereby assuring insulation efficiency during extended exposure of elevated temperatures.
Product characteristics
Low thermal conductivity at temperatures to 1000 degrees f (538 degrees c)
Good drapability conforms to irregular surfaces
U.L listed - 0-flame spread, 0-smoke generated
Non-respirable, 9 micron filament diameter
Excellent vibration resistance, will not powder
Excellent sound absorption properties
Non-alkaline (<0.01%)
Low chlorides and fluorides
Will not contribute to metal corrosion
Odorless-will not absorb odors-clean
Will not decay or sustain mold or vermin
Moisture absorption negligible
High silica mat is a high performance nonwoven mat with a sio2 content of 96% to 99%. Due to its outstanding low heat conductivity it used for thermal insulation and heat protection where severe temperature conditions exist. Until quite recently these materials were used only in aircraft and aerospace industries, but now they are used in various branches of industry, where heat resistant materials are required.
It will not burn, rot or deteriorate. It is inert to the majority of chemical reagents, resistant to organic and mineral acids (except hydrofluoric and phosphoric), weak alkali, water and high-pressure steam. High electrical insulation property at elevated temperature makes it ideal for many applications.
High silica needled mat maintains its excellent properties after long exposure to temperatures as high as 1800 degrees f, and short-time exposure up to 2300 degrees f.
