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Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive

Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive

MOQ: 500㎡
Price: $1.20-$1.83(㎡)
Standard Packaging: Palletize
Delivery Period: 3-7 work days
Payment Method: T/T
Supply Capacity: 60000㎡/month
Detail Information
Place of Origin
CHINA
Brand Name
WGSC
Certification
ISO9001
Fiber Diameter:
6-7μm
Surface Resistivity:
<10Ω
Thermal Conductivity:
<0.08 W/m·K
Resin Wet-Out Time:
<25 Sec
Processing Temperature:
2500(℃)
Length:
1m--6m
Highlight:

Chemical Resistant Carbon Fiber Tissue Veil

,

Chemical Resistant Carbon Fiber Surface Mat

,

Carbon Fiber Tissue Veil For Automotive

Product Description
Carbon Fiber Surface Mat Surface Treatment Interlaminar Bonding
Attribute Value
Resin Compatibility Polyester, Vinyl Ester, Epoxy
Width 1040mm
Thickness 1.5mm
Package Plastic film and carton
Binder Content 5-10%
Application Hand lay-up, Filament winding, Compression molding
Product Introduction

Carbon Fiber Surface Mat is a non-woven carbon fiber material engineered from short-cut carbon fibers via wet-lay forming and vacuum consolidation. It features uniform fiber distribution, smooth surface texture, and exceptional permeability, making it ideal for enhancing composite materials.

  • Lightweight: Density as low as 1.5-2.0 g/cm³, ideal for aerospace and automotive applications.
  • High Strength-to-Weight Ratio: Tensile strength up to 4,800 MPa, outperforming traditional glass fiber.
  • Electrical Conductivity: Surface resistivity <10 Ω, suitable for EMI shielding and electronic components.
  • Chemical Resistance: Resists acids, alkalis, and solvents, ensuring durability in harsh environments.
  • Applications: Automotive panels, aerospace interiors, electronic housings, wind turbine blades, and sports equipment.
 
Manufacturing Process
  1. Precursor Processing:
    • PAN-based carbon fiber precursor is stabilized at 200-300°C and carbonized at 1,000-3,000°C to achieve graphite-like structure.
  2. Fiber Cutting & Dispersion:
    • Carbon fibers (6-7 µm diameter) are cut into 30-50 mm lengths and dispersed in water with eco-friendly binders.
  3. Wet-Lay Forming:
    • Fibers are layered on a mesh conveyor, vacuum-assisted to remove air, and pressed into uniform mats (30-50 g/m²).
  4. Surface Treatment:
    • Coated with sizing agents (e.g., silane) to enhance adhesion and UV resistance.
  5. Quality Control:
    • ISO 9001-certified testing for tensile strength, surface resistivity, and thickness consistency.
 
Usage Precautions
  • Handling:
    • Avoid sharp tools to prevent fiber breakage; wear PPE (gloves, goggles) during cutting.
  • Resin Compatibility:
    • Ensure compatibility with epoxy, polyester, or vinyl ester resins for optimal bonding.
  • Curing Conditions:
    • Maintain 120-150°C and 0.5-1.0 MPa pressure in autoclaves to eliminate voids.
  • Storage:
    • Store in dry, ventilated areas; avoid humidity to prevent delamination.
 
Specifications
Material PAN-based carbon fiber + epoxy binder
Density 1.5-2.0 g/cm³
Weight 30-50 g/m²
Thickness 0.2-0.5 mm
Surface Resistivity <10 Ω (conductive grades)
Tensile Strength 3,000-4,800 MPa
Thermal Stability Operates up to 400°C (non-oxidizing)
Certifications ISO 9001, REACH, RoHS
 
Applications & Case Studies
A. Automotive
  • Body Panels: Lightweight panels for EVs (e.g., BMW i3) to reduce weight by 30-50%.
  • Interior Trim: Noise-damping panels for luxury vehicles.
Case: Tesla Model S door panels using carbon fiber mats for weight reduction.
B. Aerospace
  • Aircraft Interiors: Fire-resistant seat covers and overhead bins.
  • Rocket Components: Lightweight fuel tanks and structural parts.
Case: SpaceX Falcon 9 nose cones reinforced with carbon fiber mats.
C. Electronics
  • EMI Shielding: Enclosures for circuit boards and sensors.
  • Heat Sinks: Thermal management in smartphones and laptops.
Case: Samsung Galaxy S23 Ultra backplate for electromagnetic protection.
D. Wind Energy
  • Turbine Blades: Reinforcement for leading edges to withstand high winds.
E. Sports & Safety
  • Protective Gear: Helmets and cycling frames (e.g., Trek Emonda SLR).
Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive 0
Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive 1
products
PRODUCTS DETAILS
Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive
MOQ: 500㎡
Price: $1.20-$1.83(㎡)
Standard Packaging: Palletize
Delivery Period: 3-7 work days
Payment Method: T/T
Supply Capacity: 60000㎡/month
Detail Information
Place of Origin
CHINA
Brand Name
WGSC
Certification
ISO9001
Fiber Diameter:
6-7μm
Surface Resistivity:
<10Ω
Thermal Conductivity:
<0.08 W/m·K
Resin Wet-Out Time:
<25 Sec
Processing Temperature:
2500(℃)
Length:
1m--6m
Minimum Order Quantity:
500㎡
Price:
$1.20-$1.83(㎡)
Packaging Details:
Palletize
Delivery Time:
3-7 work days
Payment Terms:
T/T
Supply Ability:
60000㎡/month
Highlight

Chemical Resistant Carbon Fiber Tissue Veil

,

Chemical Resistant Carbon Fiber Surface Mat

,

Carbon Fiber Tissue Veil For Automotive

Product Description
Carbon Fiber Surface Mat Surface Treatment Interlaminar Bonding
Attribute Value
Resin Compatibility Polyester, Vinyl Ester, Epoxy
Width 1040mm
Thickness 1.5mm
Package Plastic film and carton
Binder Content 5-10%
Application Hand lay-up, Filament winding, Compression molding
Product Introduction

Carbon Fiber Surface Mat is a non-woven carbon fiber material engineered from short-cut carbon fibers via wet-lay forming and vacuum consolidation. It features uniform fiber distribution, smooth surface texture, and exceptional permeability, making it ideal for enhancing composite materials.

  • Lightweight: Density as low as 1.5-2.0 g/cm³, ideal for aerospace and automotive applications.
  • High Strength-to-Weight Ratio: Tensile strength up to 4,800 MPa, outperforming traditional glass fiber.
  • Electrical Conductivity: Surface resistivity <10 Ω, suitable for EMI shielding and electronic components.
  • Chemical Resistance: Resists acids, alkalis, and solvents, ensuring durability in harsh environments.
  • Applications: Automotive panels, aerospace interiors, electronic housings, wind turbine blades, and sports equipment.
 
Manufacturing Process
  1. Precursor Processing:
    • PAN-based carbon fiber precursor is stabilized at 200-300°C and carbonized at 1,000-3,000°C to achieve graphite-like structure.
  2. Fiber Cutting & Dispersion:
    • Carbon fibers (6-7 µm diameter) are cut into 30-50 mm lengths and dispersed in water with eco-friendly binders.
  3. Wet-Lay Forming:
    • Fibers are layered on a mesh conveyor, vacuum-assisted to remove air, and pressed into uniform mats (30-50 g/m²).
  4. Surface Treatment:
    • Coated with sizing agents (e.g., silane) to enhance adhesion and UV resistance.
  5. Quality Control:
    • ISO 9001-certified testing for tensile strength, surface resistivity, and thickness consistency.
 
Usage Precautions
  • Handling:
    • Avoid sharp tools to prevent fiber breakage; wear PPE (gloves, goggles) during cutting.
  • Resin Compatibility:
    • Ensure compatibility with epoxy, polyester, or vinyl ester resins for optimal bonding.
  • Curing Conditions:
    • Maintain 120-150°C and 0.5-1.0 MPa pressure in autoclaves to eliminate voids.
  • Storage:
    • Store in dry, ventilated areas; avoid humidity to prevent delamination.
 
Specifications
Material PAN-based carbon fiber + epoxy binder
Density 1.5-2.0 g/cm³
Weight 30-50 g/m²
Thickness 0.2-0.5 mm
Surface Resistivity <10 Ω (conductive grades)
Tensile Strength 3,000-4,800 MPa
Thermal Stability Operates up to 400°C (non-oxidizing)
Certifications ISO 9001, REACH, RoHS
 
Applications & Case Studies
A. Automotive
  • Body Panels: Lightweight panels for EVs (e.g., BMW i3) to reduce weight by 30-50%.
  • Interior Trim: Noise-damping panels for luxury vehicles.
Case: Tesla Model S door panels using carbon fiber mats for weight reduction.
B. Aerospace
  • Aircraft Interiors: Fire-resistant seat covers and overhead bins.
  • Rocket Components: Lightweight fuel tanks and structural parts.
Case: SpaceX Falcon 9 nose cones reinforced with carbon fiber mats.
C. Electronics
  • EMI Shielding: Enclosures for circuit boards and sensors.
  • Heat Sinks: Thermal management in smartphones and laptops.
Case: Samsung Galaxy S23 Ultra backplate for electromagnetic protection.
D. Wind Energy
  • Turbine Blades: Reinforcement for leading edges to withstand high winds.
E. Sports & Safety
  • Protective Gear: Helmets and cycling frames (e.g., Trek Emonda SLR).
Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive 0
Chemical Resistant Carbon Fiber Tissue Veil Carbon Fiber Surface Mat For Automotive 1