Introduction to Car Brake Pads Carbon Ceramic Mixture
Carbon ceramic brake pads represent a cutting-edge brake pads mixture designed for high-performance vehicles, combining carbon fibers and ceramic matrices to achieve exceptional thermal stability and durability. This advanced brake pads friction material eliminates traditional metallic components, reducing rotor wear and environmental impact while delivering superior braking efficiency .
Technical Parameters
The table below highlights key specifications of the carbon ceramic brake pads formula:
| Parameter | Value/Range |
|---|---|
| Operating Temperature Range | -50°C to 1,000°C |
| Friction Coefficient (μ) | 0.35–0.45 (dry/wet conditions) |
| Density | 1.8–2.2 g/cm³ |
| Wear Rate | ≤0.10 mm³/(N·m) |
| Compressive Strength | ≥60 MPa |
| Noise Level | <60 dB (tested at 100 km/h) |
| Packaging Specification | 4 pairs/box, vacuum-sealed |
Key Advantages
- Extreme Thermal Resistance
- The brake pads mixes withstand temperatures up to 1,000°C without performance degradation, ideal for racing and high-speed driving .
- Minimal heat-induced expansion ensures consistent brake pedal feel and reduced fade .
- Lightweight and Durable
- Carbon ceramic brake pads mixture reduces overall vehicle weight by 30% compared to cast iron systems, enhancing fuel efficiency .
- Ultra-low wear rate extends service life by 50%, minimizing replacement frequency .
- Environmentally Friendly
- Asbestos- and brass-free composition reduces toxic dust emissions, complying with global eco-standards (e.g., EU RoHS) .
- Noise and Vibration Reduction
- Precision-engineered brake pads formula incorporates vibration-dampening layers, eliminating squeal even under extreme conditions .
Storage and Packaging
- Storage Conditions:
- Store in dry, temperature-controlled environments (5°C–35°C) to prevent resin degradation .
- Avoid humidity >60% and direct sunlight to maintain material integrity .
- Packaging:
- Individually wrapped in anti-static, moisture-proof bags with desiccants .
- Reinforced boxes with shock-absorbent foam inserts ensure damage-free transportation .
Applications
Optimized for luxury cars, electric vehicles, and motorsports, this brake pads friction material delivers unmatched performance in high-stress scenarios. Its compatibility with advanced regenerative braking systems makes it a preferred choice for hybrid and autonomous vehicles .
By integrating aerospace-grade materials and rigorous testing, the carbon ceramic brake pads formula redefines automotive safety, efficiency, and sustainability.