Introduction to Car Brake Pads with No Metallic Formula
Non-metallic brake pads are engineered using advanced brake pads mixtures that eliminate metal content, offering superior performance and environmental benefits. This Brake Pads Formula utilizes composite Brake Pads Friction Materials to ensure optimal braking efficiency and durability.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.38–0.45 (μ) |
| Operating Temperature | -40°C to 650°C |
| Compressive Strength | ≥85 MPa |
| Density | 2.1–2.4 g/cm³ |
| Hardness (Rockwell) | 85–90 HRB |
| Certifications | SAE J661, ECE R90 |
Advantages of Non-Metallic Brake Pads
- Reduced Wear & Noise
- The Brake Pads Mixes combine ceramic fibers, aramid particles, and organic resins, minimizing rotor wear and eliminating high-frequency noise.
- Noise levels: <70 dB at 100 km/h braking.
- Enhanced Heat Dissipation
- Stable friction coefficient across temperatures (-40°C to 650°C), preventing brake fade.
- Eco-Friendly Composition
- 100% asbestos-free and heavy-metal-free, compliant with EU REACH regulations.
- Corrosion Resistance
- Non-metallic brake pads friction materials resist salt and moisture, extending rotor lifespan by 30%.
Storage & Packaging Guidelines
- Packaging:
- Vacuum-sealed in aluminum-coated anti-static bags.
- Carton boxes with humidity indicators (max 60% RH).
- Storage:
- Temperature: 10°C–25°C in shaded, ventilated areas.
- Avoid stacking >5 layers to prevent deformation.
Key Formula Components
The brake pads formula comprises:
- Friction Modifiers: Graphite (12–15%), silica (8–10%)
- Binders: Phenolic resin (10–12%)
- Reinforcements: Ceramic fibers (25–30%), aramid pulp (5–7%)
This optimized Brake Pads Mixture ensures balanced performance for passenger vehicles and light commercial applications.