Introduction to Car Brake Pads with Anti-Wear Formula
The Anti-Wear Formula for car brake pads employs an optimized Brake Pads Mixture of advanced Brake Pads Friction Materials, significantly enhancing durability while maintaining superior braking performance. This Brake Pads Formula integrates wear-resistant Brake Pads Mixes to reduce material degradation under extreme conditions.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.42–0.48 (μ) |
| Operating Temperature | -30°C to 700°C |
| Wear Rate | ≤0.15 mm/1,000 km |
| Compressive Strength | ≥90 MPa |
| Certifications | SAE J661, ECE R90, ISO 26865 |
| Service Life | 60,000–80,000 km (urban driving) |
Key Advantages
- Extended Lifespan
- The brake pads friction materials combine ceramic fibers (20–25%), aramid particles (10–15%), and nano-reinforced resins, reducing wear by 40% compared to conventional formulas.
- Stable Performance
- Maintains a friction coefficient variance <5% across temperature ranges (-30°C to 700°C), preventing brake fade during prolonged use.
- Low Noise & Vibration
- Harmonic dampers in the brake pads mixture reduce noise to <68 dB (tested at 100 km/h braking).
- Eco-Friendly
- Asbestos-free and copper-free formula compliant with EU Regulation No 649/2012.
Storage & Packaging Specifications
- Packaging:
- Individually wrapped in moisture-proof aluminum foil.
- Shock-absorbent EVA foam inserts in corrugated boxes.
- Storage:
- Temperature: 5°C–30°C (avoid direct sunlight).
- Relative humidity: <65%.
- Stacking height limit: 6 layers to prevent deformation.
Formula Composition Breakdown
| Component | Function | Proportion |
|---|---|---|
| Ceramic Fibers | Heat dissipation & wear resistance | 22% |
| Aramid Pulp | Friction stability enhancement | 12% |
| Graphite | Lubrication & noise reduction | 8% |
| Phenolic Resin | Binder & thermal resistance | 15% |
| Barium Sulfate | Vibration damping | 5% |
This brake pads formula ensures balanced performance for high-stress driving scenarios, including mountain descents and towing applications.