Why is the antistatic performance of Anti Static Polyester Yarn Black persistent?

The antistatic performance of Anti Static Polyester Yarn Black is persistent, mainly due to its special fiber structure design and antistatic treatment technology.

1. Uniform distribution of conductive substances inside the fiber
Anti Static Polyester Yarn Black usually adopts composite spinning technology. During the spinning process of polyester fiber, conductive materials (such as carbon black, metal oxides, conductive polymers, etc.) are evenly dispersed inside the fiber. This method is different from surface coating treatment. The conductive components will not fall off easily due to friction, washing or wear, thus ensuring the long-term stability of the antistatic effect.

2. Antistatic treatment process with strong washing resistance
Blended antistatic fiber: The conductive material and polyester raw material are fully mixed during melt spinning, so that the conductive network structure is stably present inside the fiber. Even after multiple washings, the conductive performance will not decrease significantly.

Washable finishing technology: Some Anti Static Polyester Yarn Blacks may be finished with special durable antistatic additives. These additives form chemical bonds with the fiber molecular chains instead of physical adsorption, so they are not easily washed off.

3. Fiber structure stability (heat resistance, chemical resistance)
Polyester itself has excellent heat resistance (resistant to high temperatures above 150°C) and chemical resistance, so even in high-temperature dyeing, drying or industrial washing, the conductive structure inside the fiber will not be destroyed.

The conductive components of Anti Static Polyester Yarn Blacks are usually made of high-temperature resistant materials (such as carbon nanotubes and metal compounds) to ensure stable performance during processing and use.

4. Maintain antistatic ability in low humidity environments
Traditional antistatic materials (such as surface coating types) may fail in low humidity environments, but the conductive mechanism of Anti Static Polyester Yarn Blacks does not rely on ambient humidity, but relies on the conductive pathways inside the fiber to dissipate static electricity, so even in high-dryness environments, it can still maintain a stable antistatic effect.

5. Strong anti-friction loss ability
Since the conductive components are embedded in the fiber instead of only existing on the surface, the anti-static performance will not decay rapidly even with long-term friction (such as daily wear of textiles, industrial wiping, etc.).