Products

FST's aramid raw material coloring short fibers, also known as raw material coloring aramid short fibers, fundamentally solve the problem of coloring and provide you with the ultimate solution of long-lasting color and unaffected performance. It is an ideal choice for high-end industrial applications.

FST is a leading manufacturer and supplier of aramid white short fiber, with an annual output of 6000 tons of aramid fibers. Aramid white short fiber has perfect and excellent characteristics. If you are looking for this product, FST will be your ideal choice.

FST is a manufacturer and supplier of aramid white filter short fiber, made of high-performance meta aramid fibers. The white color is pure, and the fiber length and fineness are uniform. Has excellent high temperature resistance, chemical stability, and mechanical strength.

FST has a leading large-scale production base in the industry, equipped with multiple international advanced production lines, with an annual production capacity of nearly 10000 tons. It can stably supply various specifications of meta aramid, meta aramid short fiber, filament and non-woven fabric products including natural color, elemental color, flame retardant, etc. The product performance indicators have reached the international first-class level.

The full name of meta aramid short fiber is "poly (m-phenylenediamine)" (PMIA) fiber, also known as aramid 1313, which is an organic polymer fiber synthesized from isophthalic acid and meta phenylenediamine. It has good thermal stability, flame retardancy, electrical insulation, chemical stability, radiation resistance, and good machinability.

FST is a professional manufacturer and supplier of flame-retardant aramid fibers. Flame retardant aramid fibers are high-performance synthetic fibers with excellent thermal stability and chemical inertness, and their core characteristics stem from the tightly arranged aromatic ring structure in the molecular chain. This structure allows it to maintain its shape intact in extreme high temperature environments (usually exceeding 400 ℃), without melting or dripping, only undergoing carbonization, fundamentally blocking the path of flame propagation.