Introduction to Car Brake Pads with Carbon Fiber Formula
Carbon fiber brake pads employ an advanced Brake Pads Formula that integrates high-performance Brake Pads Friction Materials, delivering exceptional durability and thermal stability. The Brake Pads Mixture combines carbon fibers, ceramic compounds, and proprietary binders, optimized for high-speed and heavy-duty applications.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.42–0.48 (μ) |
| Operating Temperature | -50°C to 800°C |
| Compressive Strength | ≥95 MPa |
| Density | 2.2–2.5 g/cm³ |
| Hardness (Rockwell) | 90–95 HRB |
| Certifications | SAE J661, ECE R90, ISO 26865 |
Key Advantages
- Superior Heat Resistance
- The Brake Pads Mixes with carbon fiber reinforcement maintain stable friction performance at extreme temperatures (up to 800°C), reducing brake fade by 60% compared to semi-metallic formulas.
- Lightweight & Low Wear
- Carbon fiber brake pads friction materials reduce pad weight by 25% while achieving 50,000+ km service life under urban driving conditions.
- Minimal Dust & Noise
- Optimized brake pads formula reduces dust emission by 70% and operates below 65 dB at 100 km/h braking.
- Corrosion Resistance
- Carbon fiber matrix resorts moisture and salt corrosion, extending rotor lifespan by 40%.
Storage & Packaging Guidelines
- Packaging:
- Sealed in anti-static aluminum foil bags with desiccants.
- Stacked vertically in reinforced cardboard boxes (max 8 layers).
- Storage:
- Temperature: 15°C–30°C in dry, UV-protected environments.
- Relative humidity: <55% to prevent binder degradation.
Formula Composition
The brake pads mixture comprises:
- Friction Components: Carbon fibers (30–35%), ceramic particles (20–25%)
- Binders: High-temp phenolic resin (12–15%)
- Reinforcements: Aramid pulp (5–8%), graphite flakes (10–12%)
This brake pads formula ensures balanced performance for sports cars and electric vehicles, combining rapid heat dissipation with consistent stopping power.