Introduction to Car Brake Shoes with Ceramic-Based Mixture
Ceramic-based brake shoes mixture represents a high-performance innovation in brake shoes friction materials, designed to deliver superior braking efficiency, environmental safety, and durability for passenger vehicles. This brake shoes formula utilizes advanced ceramic fibers, non-metallic fillers, and organic binders to replace traditional copper or asbestos, ensuring compliance with global regulations while optimizing braking performance. Below is a detailed technical overview, key benefits, and storage guidelines for this cutting-edge friction material.
Technical Parameters of ceramic brake shoes mixes
| Parameter | Specification |
|---|---|
| Friction Coefficient (μ) | 0.35–0.45 (stable at 0–600°C) |
| Operating Temperature | -40°C to 600°C |
| Density | 2.2–2.6 g/cm³ |
| Thickness | 6–18 mm (customizable) |
| Shear Strength | ≥4.0 MPa |
| Noise Level | ≤65 dB (ultra-low noise design) |
Note: Specifications vary based on vehicle models (e.g., Toyota Camry, Honda Civic, Hyundai Accent).
Advantages of ceramic brake shoes mixture
- Environmental and Health Safety
- Free from asbestos, heavy metals, and copper, aligning with REACH and RoHS standards.
- Produces minimal brake dust, reducing air pollution and wheel contamination.
- Enhanced Braking Performance
- Brake shoes friction materials maintain consistent friction coefficients across extreme temperatures, preventing brake fade during high-load scenarios.
- Ceramic fibers reduce rotor wear, extending the lifespan of braking systems.
- Superior Comfort
- Optimized brake shoes mixes minimize vibration and noise (<65 dB) through advanced damping technology.
- Wide Compatibility
- Compatible with sedans, SUVs, and compact vehicles (e.g., Toyota PASSO, Mitsubishi V31).
Packaging and Storage Guidelines
- Packaging:
- Sealed moisture-proof bags + reinforced cartons to prevent damage during shipping.
- Labels include part numbers (e.g., K2342, 04495-28090) and certifications (IATF16949, E-mark).
- Storage:
- Temperature: 10–30°C; Humidity: ≤60%.
- Avoid direct sunlight and corrosive environments to preserve material integrity.
Applications
The brake shoes formula is ideal for:
- Passenger vehicles (e.g., Toyota Camry 2015, Honda Civic).
- High-performance scenarios requiring low dust and minimal rotor wear.
This ceramic-based mixture balances safety, sustainability, and performance, making it a leading choice for modern automotive braking systems. For OEM customization or detailed specifications, refer to supplier catalogs.