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PU coating enhanced conductive 6mm Chopped Carbon Fiber

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November 28, 2025
Category Connection: Chopped Carbon Fiber
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Brief: Observe the step-by-step operation and see practical examples of usage for our PU coating enhanced conductive 6mm chopped carbon fiber. This video demonstrates the manufacturing process, uniform fiber dispersion, and key applications in plastic modification, highlighting its superior conductivity and mechanical reinforcement properties.
Related Product Features:
  • Features a 6mm uniform length for optimal dispersion and ease of processing in various applications.
  • Enhanced with a specialized PU coating to improve conductivity and compatibility with plastic matrices.
  • Exhibits high tensile strength of 33.6-3.8 GPa, significantly stronger than steel on a weight-for-weight basis.
  • Provides excellent electrical conductivity with a volume resistivity of 1.5×10⁻³ Ω·cm.
  • Offers superior corrosion resistance, remaining stable in acids, alkalis, and organic solvents.
  • Lightweight with a density of 1.6-1.76 g/cm³, ideal for weight-sensitive applications.
  • Delivers high modulus of 220 GPa, enhancing stiffness in composite materials.
  • Ideal for plastic modification, offering improved strength, conductivity, and shielding properties.
FAQs:
  • What are the primary applications for this 6mm chopped carbon fiber?
    It is specially designed for plastic modification, enhancing strength, conductivity, and electromagnetic shielding in industries like automotive, aerospace, and specialty materials.
  • How does the PU coating benefit the carbon fiber?
    The PU coating enhances electrical conductivity and improves compatibility with various plastic matrices, ensuring uniform dispersion and effective performance.
  • What is the electrical conductivity of this carbon fiber?
    It has a volume resistivity of 1.5×10⁻³ Ω·cm, making it highly conductive for applications requiring static dissipation or EMI shielding.
  • How does the strength of this carbon fiber compare to steel?
    With a tensile strength of 33.6-3.8 GPa, it is 7-9 times stronger than steel while being less than a quarter of its weight.
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