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Labon Condeur® Conductive Technology

Condeur® conductive fiber is based on aramid and adopts self-developed surface modification technology. Nanometer conductive particles are fully embedded into the substrate, so that it has good electrical conductivity and antistatic performance. The specific volume resistance can reach 5.0 X 10² Ω.cm.

 

Condeur® conductive fiber has the following properties :

•  Electrical conductivity: Volume specific resistance down to 5.0 X 10² Ω.cm. 

•  Stable performance: The performance of aramid substrate is stable, durable, strong oxidation resistance, and the half-life is better than that of similar imported products (nylon, polyester base).

•  Chemical resistance: High resistance to friction, washing and chemicals.

•  Strong spinnability: Excellent flexibility, spinnability.

•  Anti-static: Heat conductive, anti-dust and dustproof, and can shield and absorb electromagnetic wave.

•  Beautiful products: Condeur® is evenly distributed inside the fabric, breaking the mesh pattern.

Labon Condeur® Conductive Technology

Condeur® conductive fiber is based on aramid and adopts self-developed surface modification technology. Nanometer conductive particles are fully embedded into the substrate, so that it has good electrical conductivity and antistatic performance. The specific volume resistance can reach 5.0 X 10² Ω.cm.

 

Condeur® conductive fiber has the following properties :

•  Electrical conductivity: Volume specific resistance down to 5.0 X 10² Ω.cm. 

•  Stable performance: The performance of aramid substrate is stable, durable, strong oxidation resistance, and the half-life is better than that of similar imported products (nylon, polyester base).

•  Chemical resistance: High resistance to friction, washing and chemicals.

•  Strong spinnability: Excellent flexibility, spinnability.

•  Anti-static: Heat conductive, anti-dust and dustproof, and can shield and absorb electromagnetic wave.

•  Beautiful products: Condeur® is evenly distributed inside the fabric, breaking the mesh pattern.