Carbon Fiber Composites (CFC)

Carbon-Carbon Composite (C/C Composite), also referred to as Carbon Fiber Composite (CFC), is an advanced material made from a carbon matrix reinforced with carbon fiber, carbon felt, or carbon cloth. The carbon matrix is typically formed through chemical vapor deposition (CVD) of pyrolytic carbon or by carbonizing synthetic resins or asphalt. Known for their exceptional thermal and mechanical properties, C/C composites are engineered to perform reliably under the most extreme conditions — making them the material of choice in aerospace, chemical processing, and high-temperature industrial applications.

Key Features

Low Density: Typically < 2.0 g/cm³, offering lightweight structural benefits
High Strength & Specific Modulus: Withstands mechanical stress under extreme conditions
Excellent Thermal Conductivity: Ideal for heat-intensive environments
Low Thermal Expansion Coefficient: Maintains dimensional stability under rapid temperature changes
Superior Thermal Shock Resistance: Handles frequent heating/cooling cycles without cracking
Outstanding Friction and Wear Performance: Ensures long-term durability in mechanical systems
High-Temperature Resistance: Performs reliably at temperatures exceeding 1650°C Available in 2D, 2.5D, and 3D fiber architectures for enhanced mechanical performance and customizability.