Introduction to Motorcycle Brake Shoes with Carbon Ceramic Formula
Carbon ceramic brake shoes represent a premium innovation in motorcycle braking technology, combining high-performance friction materials with exceptional durability and environmental sustainability. This article explores the advanced Brake Shoes Formula, technical specifications, advantages, and storage guidelines for carbon ceramic-based systems.
Technical Parameters
The table below highlights key technical data for carbon ceramic brake shoes:
| Parameter | Value/Range | Description |
|---|---|---|
| Friction Coefficient | 0.40–0.55 (dry conditions) | Delivers superior stopping power even at high speeds. |
| Operating Temperature | -50°C to 600°C | Exceptional thermal stability, resisting fade under extreme heat. |
| Wear Rate | ≤0.10 mm/1,000 km | Ultra-low wear extends lifespan, ideal for high-performance applications. |
| Density | 2.0–2.5 g/cm³ | Lightweight yet robust structure for efficient heat dissipation. |
| Hardness | 80–90 Rockwell H | High hardness prevents deformation under heavy braking loads. |
Key Components of the Brake Shoes Formula
- Brake Shoes Mixture
- Base Materials: Carbon fibers, silicon carbide ceramics, and ceramic-coated steel fibers.
- Binders: High-temperature phenolic resins for cohesion and thermal resistance.
- Additives: Graphite and boron nitride to reduce friction noise and dust generation.
- Brake Shoes Friction Materials
- Carbon-Ceramic Matrix: Combines carbon’s thermal conductivity with ceramic’s hardness.
- Reinforcements: Aramid fibers (e.g., Kevlar) enhance tensile strength and reduce rotor wear.
Advantages
- High-Temperature Performance
- Stable friction coefficient up to 600°C, ideal for racing or heavy-duty use.
- Lightweight Design
- Lower density reduces unsprung mass, improving handling and fuel efficiency.
- Environmental Compliance
- Free from copper, asbestos, and heavy metals, meeting global eco-regulations.
- Low Noise and Dust
- Smooth friction surfaces minimize brake squeal and particulate emissions.
- Long Service Life
- Carbon ceramic Brake Shoes Mixes resist glazing and wear, reducing replacement frequency.
Storage and Packaging
- Storage Conditions:
- Store in dry, temperature-controlled environments (<25°C, humidity <50%) to prevent resin degradation.
- Packaging:
- Individually wrapped in anti-static, vacuum-sealed bags to avoid moisture absorption.
- Reinforced corrugated boxes with desiccant packs for long-term protection.
- Labels include ISO certifications, batch numbers, and safety handling instructions.
Conclusion
Carbon ceramic brake shoes leverage cutting-edge brake shoes formula innovations to deliver unmatched performance, durability, and eco-friendliness. By integrating advanced brake shoes friction materials such as carbon fibers and ceramic particles, this technology caters to both high-performance motorcycles and environmentally conscious riders. For OEM customization or technical specifications, consult specialized manufacturers.