Traditional antistatic methods for flame retardant fabrics The traditional antistatic processing methods for textiles are: the use of antistatic fibers.

Antistatic fiber has high hygroscopicity and equilibrium moisture regain, and can absorb water molecules in the air.

The textile has good antistatic properties, that is, it is not easy to generate static electricity, and it is easier to dissipate the static electricity that has been generated.

Apply antistatic agent. The antistatic mechanism is the same as that of antistatic fibers. Stainless steel fiber blend.

The good electrical conductivity of metal fibers makes it easy to dissipate static charges that have been generated.


UV-resistant fabrics are inlaid with organic conductive filaments or blended with organic conductive short fibers. The antistatic mechanism is similar to that of metal conductive fibers such as stainless steel.

That is, it has the effect of easily causing the electric charge to escape. For organic conductive fibers, the flame retardant grades include not only gray products using carbon black as conductive substances, but also

There are also white or nearly white organic conductive fibers with metal oxides and metal carbides as conductive substances.

In recent years, new antistatic technologies have appeared and promoted two types of conductive fibers, which can be used in antistatic processing of textiles. ) silver-plated fibers or filaments.


The flame retardant multifunctional composite fabric has good antibacterial effect and electrical conductivity of silver fiber, so the textile contains less

Silver-plated fiber (about 1%) has antibacterial function and good antistatic function.

When used, it forms a conductive network structure in the fabric and this structure is relatively dense,

It can also have a good electromagnetic shielding effect. For antistatic function, due to the good electrical conductivity of silver fibers,

The ability to dissipate electrostatic charges is stronger than that of organic conductive fibers, so in general, the antistatic effect is better than that of organic conductive fibers.
Conductive polymer materials. Such as polyaniline, polypyrrole, polythiophene, etc. These conductive polymers have only begun to enter engineering applications in recent years.

Now conductive polymers can be made into fibers or coatings, which have low resistivity and can be used as a new type of raw material for antistatic processing of textiles.