Introduction to Car Brake Pads Sintered Ceramic Mixture
Sintered ceramic brake pads represent a cutting-edge advancement in automotive braking technology, utilizing a brake pads mixture engineered for extreme durability and thermal stability. Composed of high-purity ceramic fibers, metallic particles, and advanced bonding agents, this brake pads friction material is sintered under high pressure and temperature to create a dense, heat-resistant structure. The brake pads formula ensures minimal wear, reduced noise, and consistent performance across demanding driving conditions, making it ideal for high-performance and electric vehicles.
Technical Parameters
The table below outlines key specifications of a sintered ceramic brake pads mixture:
| Parameter | Value/Range |
|---|---|
| Operating Temperature Range | -50°C to 800°C |
| Friction Coefficient (μ) | 0.40–0.55 (dry/wet conditions) |
| Wear Rate | ≤0.10 mm³/(N·m) |
| Compressive Strength | ≥60 MPa |
| Noise Level | <60 dB (tested at 50 km/h) |
| Packaging Specification | 6 pairs/box, vacuum-sealed bags |
Key Advantages
- Superior Heat Resistance
- The sintered ceramic brake pads formula withstands temperatures up to 800°C without fading or outgassing, ensuring reliable braking during aggressive driving or heavy loads.
- Extended Lifespan
- Optimized brake pads mixes reduce wear rates by 40% compared to traditional organic pads, significantly extending service intervals and lowering long-term costs.
- Low Noise and Vibration
- Precision-engineered chamfers and vibration-dampening additives eliminate squealing, even in high-humidity conditions.
- Eco-Friendly Performance
- Asbestos-free and heavy-metal-free composition complies with global environmental regulations (e.g., EU RoHS), while low dust emissions protect air quality.
- Enhanced Disc Compatibility
- The brake pads friction material minimizes rotor abrasion, preserving disc integrity and reducing maintenance costs.
Storage and Packaging
- Storage Guidelines:
- Store in a dry, temperature-controlled environment (10°C–30°C) to prevent moisture absorption and resin degradation.
- Avoid prolonged exposure to UV light or humidity above 55% to maintain adhesive properties.
- Packaging:
- Individually wrapped in anti-static, moisture-proof bags with silica gel desiccants.
- Bulk shipments use reinforced, shock-resistant boxes lined with foam inserts to prevent transit damage.
Applications
Designed for high-performance cars, electric vehicles (EVs), and commercial fleets, sintered ceramic brake pads mixtures excel in scenarios requiring rapid heat dissipation and consistent friction. Their lightweight design and compatibility with regenerative braking systems make them a preferred choice for modern automotive engineering.
By integrating advanced brake pads friction materials and rigorous quality control, this sintered ceramic formula redefines braking efficiency, safety, and sustainability.