Introduction to Truck Brake Pads with Carbon Ceramic Formula
Carbon ceramic Brake Pads Formula represents a breakthrough in heavy-duty braking technology, combining advanced Brake Pads Friction Materials with aerospace-grade engineering. This Brake Pads Mixture is specifically designed for commercial trucks, delivering unparalleled performance under extreme conditions.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.42–0.48 (μ) @ 500°C |
| Operating Temperature | -50°C to 850°C |
| Density | 2.3–2.6 g/cm³ |
| Compressive Strength | ≥120 MPa |
| Wear Rate | ≤0.15 mm/1,000 km (40-ton load) |
| Certifications | ECE R90, JIS D4418 |
Advantages of Carbon Ceramic Formula
- Extreme Heat Resistance
- The Brake Pads Mixes integrate carbon fibers (25–30%) and silicon carbide (15–20%), maintaining stable friction even during prolonged downhill braking.
- Extended Service Life
- 3x longer lifespan than semi-metallic pads under 80%+ humidity conditions, reducing fleet maintenance costs.
- Noise & Vibration Control
- Layered damping structure reduces noise to <65 dB at full braking (ISO 362-1 standard).
- Eco-Friendly Performance
- 100% copper-free formula compliant with US EPA Brake Pad Safety Standards (2025).
Storage & Packaging Guidelines
- Packaging:
- Individually wrapped in anti-oxidation foil with desiccant packs.
- Wooden crates with shock-absorbent foam for bulk transport.
- Storage:
- Temperature: -10°C–30°C in low-humidity environments (<55% RH).
- Maximum stack height: 8 layers to prevent edge chipping.
Key Formula Components
The brake pads formula consists of:
- Friction Matrix: Carbon ceramic particles (40–45%), zirconium oxide (10–12%)
- Reinforcements: PAN-based carbon fibers (25–30%), aramid pulp (5–8%)
- Binders: Modified phenolic resin (8–10%) with graphene additives.
This optimized brake pads mixture ensures reliable stopping power for heavy trucks, mining vehicles, and other commercial applications, while meeting global environmental regulations.