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Filament Yarn for Weaving Carbon Fiber Roving Yarn

Product Details

Customization:	Available
Shape:	Carbon Fiber Yarn
Raw Materials:	Carbon Fiber

Ningbo ZNZ Leisure Products Co., Ltd.

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Registered Capital

1000000 RMB

Plant Area

501~1000 square meters

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Product Description

Company Info.

Basic Info.

Performance

High-Strength Type

State

Filament

Mechanical Property

High-Performance Type

Sample

Available

Transport Package

Roll

Trademark

ZNZ

Product Description

Filament Yarn for Weaving Carbon Fiber Roving Yarn

Features and Usage

    Carbon ﬁber (carbon ﬁber, called CF), a carbon content of more than 96% of high-strength, high modulus ﬁber material new ﬁber. It is composed of ﬂake graphite crystallites along the ﬁber and other organic ﬁbers in the axial direction from a pile, and crystallite graphite material by graphitizing carbonized obtained. Carbon ﬁber "soft on the outside and hard inside," quality aluminum lighter than metal, but the strength is higher than steel, and corrosion resistant, high modulus characteristics, in terms of civilian defense are important materials. It not only has the inherent intrinsic characteristic of the carbon material, and both the soft workability textile ﬁbers, a new generation of reinforcing ﬁbers.
   

Key Features of Carbon Fiber Yarn
√ High Strength-to-Weight Ratio: Carbon fiber yarns offer exceptional tensile strength while being significantly lighter than
metals like steel or aluminum.

   √ Low Density: They are lightweight due to their low mass per unit volume, making them ideal for weight-sensitive applications. 
  

   √ Chemical Resistance: Resistant to corrosion, oxidation, and degradation from exposure to chemicals, moisture, and UV radiation. 
  

   √ High Stiffness (Modulus): Provides excellent rigidity, maintaining shape under stress without deformation. 
  

   √ Thermal Stability: Retains structural integrity at high temperatures (up to 500°C in inert environments). 
  

   √ Electrical Conductivity: Conducts electricity, enabling applications in EMI shielding or static dissipation. 
  

   √ Low Thermal Expansion: Minimal expansion/contraction with temperature changes, ensuring dimensional stability. 
  

   √ Fatigue Resistance: Performs well under cyclic loading, outperforming metals in long-term durability. 
  

   √ Customizable Fiber Architecture: Available in various tow sizes (e.g., 1K, 3K, 12K) and can be woven into fabrics or braided. 
  

   √ Anisotropic Properties: Strength and stiffness are directionally dependent, allowing tailored designs for specific load paths. 
  

   √ Smooth Surface Finish: Compatible with resin matrices for composites, ensuring strong interfacial adhesion. 
  

   √ Non-magnetic: Suitable for applications requiring magnetic neutrality, such as medical or aerospace equipment. 
  

   √ Versatility: Used across industries like aerospace, automotive, sports, and renewable energy for structural reinforcement.
  

1.Aviation Industry such as aircraft, plane main wing, empennage and body, etc.
2.Marine such as skis, kayaks, paddles, oars, canoes, etc.
3.Sporting Goods such as bicycle frames, snowboards, skateboards, hockey and lacrosse shafts, golf clubs, etc
4.Aftermarket Car Parts such as auto engine, synchronizer, machine covers, spoilers, bumpers, trim and so on.
5.Other Applications such as faucets, bat, various models, building reinforcing, watches, pens, bags, gears, blankets, rotor blades, etc. Filament Yarn for Weaving Carbon Fiber Roving Yarn