AMT-T03 high performance FR welding protective fabric

High-performance flame-retardant welding protective fabric: Product features
High-performance flame-retardant welding protective fabric is made of high-strength fiber and special flame-retardant process, with excellent fire resistance, high temperature resistance and anti-melting droplet performance. Its unique satin weave structure enhances the wear resistance and tear resistance of the fabric, while keeping it soft and light for easy operation. The protective fabric can quickly carbonize when exposed to high temperature or open flame to form a heat insulation barrier, effectively preventing the spread of flames, and does not produce molten droplets or toxic fumes, in line with international safety standards (such as EN ISO 11611, EN ISO 11612, etc.). In addition, its aging resistance and UV resistance make it suitable for long-term outdoor operations, and it is an ideal protective material for high-risk industries such as welding and cutting.

High-performance flame-retardant welding protective fabric: Application range
This protective fabric is widely used in high-temperature working environments such as welding, metal processing, petrochemicals, and power maintenance. It can cover equipment, workbenches or floors to prevent sparks from splashing and causing fires. In the fields of automobile manufacturing, ship repair, aerospace, etc., it is used to protect precision instruments, cables and flammable materials. At the same time, the fabric is also suitable for fire emergency, metallurgical casting and other industries as a fire blanket, welding curtain or temporary protective barrier to provide reliable safety protection for personnel and equipment.

High-performance flame-retardant welding protective cloth: Working principle
High-performance flame-retardant welding protective cloth achieves protection through the dual mechanism of physical barrier + chemical flame retardant. Its compact fiber structure can effectively block sparks, slag and high-temperature radiation, while the special flame-retardant coating decomposes and absorbs heat at high temperature, reduces the surface temperature, and forms a dense insulation layer through carbonization reaction, blocking the oxygen supply and preventing the spread of combustion. In addition, some products use high-performance fibers such as aramid and flame-retardant cotton to further improve the high temperature resistance (can withstand short-term high temperatures of 800℃~1200℃), ensuring that it can still play a stable protective role in extreme environments and ensure operational safety.