High Strength Carbon Fiber Fabric Aerospace Grade Composite Solutions​

Carbon Fiber Twill Fabric is a high-performance composite substrate engineered from high-modulus carbon fiber yarns through precision weaving. Its unique 2×2 or 3×3 twill structure enhances tensile strength and shear resistance while maintaining lightweight properties, making it widely used in aerospace, new energy vehicles, high-end sports equipment, and industrial machinery. This product supports customization of parameters to meet diverse needs, from prototype design to mass production.

• Exceptional Mechanical Properties
  5x higher specific strength than steel, 3x higher specific modulus than aluminum; tensile strength up to 3,000-4,500 MPa. The twill structure distributes stress more evenly, extending fatigue life by 40% compared to plain weave fabrics.
• Lightweight Design
  Density ranges from 1.45-1.65 g/cm³, reducing weight by 50-70% compared to traditional metals, significantly improving fuel efficiency and range.
• Strong Environmental Resistance
  Resistant to acids, alkalis, solvents, and UV aging, suitable for long-term use in marine or chemical environments.
• Excellent Process Compatibility
  Supports multiple molding processes, including vacuum bagging, autoclave curing, and resin transfer molding (RTM), compatible with complex curved surfaces.
• Diverse Surface Treatments
  Options include matte/high-gloss UV coatings, conductive plating, and flame retardant treatments to meet both aesthetic and functional needs.
• Rapid Delivery System
  Standard orders ship in 7 days; small-batch samples (minimum 50m²) are accepted; expedited orders available within 3 days.

Aerospace: Aircraft wing skins, satellite brackets, rocket fuel tank reinforcements
Case Study: A certain drone model reduced weight by 32% and extended range by 18% using this product.

New Energy Vehicles: Battery box casings, motor drive shafts, carbon fiber-epoxy body panels
Data: A sports car brand improved torsional rigidity by 26% and reduced vehicle energy consumption by 15% after adoption.

Industrial Equipment: Wind turbine blade caps, precision machine tool spindles, semiconductor equipment vibration-damping bases
Feature: Maintains over 90% mechanical performance at 80°C high temperatures.

Sports Equipment: F1 steering wheel frames, golf club shafts, bicycle frames
Innovation: Post-resin composite, impact absorption rate increased by 35%, meeting international safety standards.

Weave Type Comparison

Thickness Selection Advice

• 0.12 -0.2 mm: Decorative panels, electronic device casings
• 0.3 -0.5 mm: Automotive body components, drone frames
• 0.6 mm+: Ballistic material substrates, heavy-duty anti-wear layers