Introduction to Car Brake Shoes with Carbon Fiber Mixture
Carbon fiber brake shoes mixture represents a revolutionary advancement in brake shoes friction materials, designed to deliver superior braking performance while prioritizing lightweight durability and environmental sustainability. This brake shoes formula replaces traditional metallic components with carbon fiber-reinforced composites, offering exceptional thermal stability and wear resistance. Below is a detailed technical overview, advantages, and storage guidelines for this cutting-edge friction material.
Technical Parameters of Carbon Fiber brake shoes mixes
| Parameter | Specification |
|---|---|
| Density | 1.8–2.0 g/cm³ |
| Friction Coefficient (μ) | 0.35–0.45 (stable at 0–700°C) |
| Operating Temperature | -40°C to 700°C |
| Thickness | 6–15 mm (customizable) |
| Wear Resistance | 10× lower than steel-fiber composites |
| Noise Level | ≤70 dB (low-noise design) |
Key Advantages of Carbon Fiber Brake Shoes
- Lightweight and High Strength
- The low density of carbon fiber (1.8–2.0 g/cm³) reduces the overall weight of brake systems by up to 60% compared to traditional materials, enhancing vehicle fuel efficiency and handling .
- Exceptional Wear Resistance
- Carbon fiber brake shoes friction materials exhibit a wear rate 10 times lower than steel-fiber composites, significantly extending the lifespan of both brake shoes and rotors .
- Stable Friction Performance
- The brake shoes formula maintains a consistent friction coefficient across extreme temperatures, preventing brake fade during high-load or high-speed scenarios .
- Low Noise and Vibration
- Carbon fiber’s natural damping properties reduce noise levels to ≤70 dB, ensuring quieter operation compared to metallic alternatives .
- Environmental and Corrosion Resistance
- Free from heavy metals and resistant to moisture, acidic environments, and rust, this brake shoes mixture complies with global regulations (e.g., RoHS) .
Packaging and Storage Guidelines
- Packaging:
- Sealed vacuum bags with desiccants + reinforced corrugated cartons to prevent moisture ingress .
- Labels include part numbers (e.g., WVA29087, 29162) and certifications (IATF16949, E-mark).
- Storage:
- Temperature: 10–30°C; Humidity: ≤60% .
- Avoid direct sunlight and corrosive environments.
Applications
This brake shoes formula is ideal for:
- High-performance vehicles requiring lightweight braking systems.
- Electric and hybrid cars prioritizing energy efficiency .
- Harsh environments (e.g., coastal or industrial areas) where corrosion resistance is critical .
By combining advanced carbon fiber technology with optimized brake shoes mixes, this innovation sets a new standard for safety, durability, and environmental compatibility in automotive braking systems.