Introduction to Car Brake Pads Ceramic-Based Mixture
Ceramic-based brake pads are a high-performance brake pads mixture engineered for modern vehicles, combining ceramic fibers, aramid particles, and advanced resin binders to deliver exceptional braking efficiency and durability. This brake pads friction material is renowned for its low noise, minimal dust generation, and superior thermal stability, making it ideal for both standard and high-performance automotive applications .
Technical Parameters
The table below outlines key specifications of a typical ceramic-based brake pads formula:
| Parameter | Value/Range |
|---|---|
| Operating Temperature Range | -40°C to 650°C ()] |
| Friction Coefficient (μ) | 0.35–0.45 (dry/wet conditions) |
| Density | 2.0–2.3 g/cm³ |
| Wear Rate | ≤0.12 mm³/(N·m) |
| Noise Level | <65 dB (tested at 50 km/h) |
| Packaging Specification | 10 pairs/box, vacuum-sealed bags |
Key Advantages
- Low Noise and Dust Emission
- The brake pads mixes incorporate ceramic fibers and vibration-dampening additives, reducing squealing and generating 50% less dust than semi-metallic alternatives .
- Complies with EU RoHS standards due to asbestos-free and heavy-metal-free composition .
- Thermal Stability and Durability
- Maintains a stable friction coefficient even at extreme temperatures (up to 650°C), preventing brake fade .
- Ceramic components in the brake pads friction material resist glazing and cracking, extending pad and rotor life .
- Eco-Friendly and Lightweight
- Reduced density (2.0–2.3 g/cm³) lowers overall vehicle weight, improving fuel efficiency .
- Non-corrosive formula minimizes environmental impact and rotor wear .
Storage and Packaging
- Storage Guidelines:
- Store in dry, temperature-controlled environments (10°C–30°C) to prevent resin degradation .
- Avoid humidity exceeding 60% and direct sunlight to preserve adhesive properties .
- Packaging:
- Individually wrapped in anti-static, moisture-proof bags with desiccants for enhanced shelf life .
- Bulk shipments use reinforced cardboard boxes with shock-absorbing foam inserts to prevent transit damage .
Applications
Ceramic-based brake pads formula is widely used in hybrid/electric vehicles, luxury cars, and urban commuting scenarios requiring quiet, clean, and reliable braking. Compatible with most passenger vehicles and light trucks, this mixture balances performance, longevity, and environmental sustainability .
By integrating advanced ceramic brake pads friction materials and rigorous quality testing, this innovation sets a benchmark for safety and efficiency in automotive braking systems .
Introduction to Car Brake Pads Ceramic-Based Mixture
Ceramic-based brake pads are a high-performance brake pads mixture engineered for modern vehicles, combining ceramic fibers, aramid particles, and advanced resin binders to deliver exceptional braking efficiency and durability. This brake pads friction material is renowned for its low noise, minimal dust generation, and superior thermal stability, making it ideal for both standard and high-performance automotive applications .