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Chopped Carbon Fiber

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November 28, 2025
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Brief: Let’s dive in — see this solution in action and notice the key moments. This video showcases how chopped carbon fiber enhances friction in brake pads and clutch plates. You'll see the manufacturing process, key technical properties, and diverse industrial applications from aerospace to automotive sectors.
Related Product Features:
  • Chopped carbon fibers are made by cutting continuous filaments for uniform dispersion and simple processing.
  • Provides enhanced friction properties ideal for brake pads, clutch plates, and carbon fiber felt applications.
  • Features high tensile strength of 3500MPa and tensile modulus of 228GPa for superior mechanical performance.
  • Carbon content greater than 95% ensures high purity and consistent material quality.
  • Available in various lengths from 1mm to 100mm to suit different manufacturing requirements.
  • Can be supplied in resin-containing or resin-free types for flexible composite material integration.
  • Exhibits excellent electrical conductivity with resistivity of 1.0-1.6Ωcm for electrothermal applications.
  • Maintains low density of 1.75g/cm³ while offering strength superior to steel.
FAQs:
  • What are the main applications of chopped carbon fiber?
    Chopped carbon fiber is widely used in brake pads, clutch plates, military equipment, construction materials, electrothermal products, shielding materials, and reinforced plastics for automotive and aerospace components.
  • What technical specifications define chopped carbon fiber quality?
    Key specifications include carbon content >95%, tensile strength of 3500MPa, tensile modulus of 228GPa, density of 1.75g/cm³, and fiber diameter of 7μm with circular cross-section.
  • How does chopped carbon fiber compare to continuous carbon fiber?
    Chopped carbon fiber offers uniform dispersion, diverse feeding methods, and simpler processes, making it suitable for applications where continuous filaments aren't practical.
  • What are the advantages of using chopped carbon fiber in composite materials?
    It provides higher strength than steel, lower density than aluminum, superior corrosion resistance, and excellent thermal conductivity while maintaining flexibility for various manufacturing processes.
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