Carbon-ceramic brake discs use carbon fiber brake disc preforms as the reinforcement phase. Pyrolytic carbon is deposited into the preform via chemical vapor deposition (CVI) to form a porous matrix, followed by liquid silicon infiltration (LSI) to create C/C-SiC composite brake discs.
Carbon-ceramic brake discs use carbon fiber brake disc preforms as the reinforcement phase. Pyrolytic carbon is deposited into the preform via chemical vapor deposition (CVI) to form a porous matrix, followed by liquid silicon infiltration (LSI) to create C/C-SiC composite brake discs.
Applications:Aerospace, high-performance and standard passenger vehicles, commercial vehicles, etc.
Features:Short braking distance, lightweight, wear-resistant, high-temperature resistant, oxidation-resistant, lifespan matching the vehicle.
● Long-fiber carbon-ceramic brake discs
| Item | Value | Unit |
| Density | 2.0-2.5 | g/cm³ |
| Tensile strength | ≥60 | MPa |
| Compressive strength | ≥200 | MPa |
| Flexural strength | ≥60 | MPa |
| Impact strength | ≥10 | MPa |
| Interlaminar shear strength | ≥10 | MPa |
● Customizability:Tailored designs to meet customer needs.
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