Introduction to Motorcycle Brake Shoes with Metallic-Based Formula
Metallic-based brake shoes are a cornerstone of motorcycle braking systems, offering superior durability and high-temperature performance. Engineered with Brake Shoes Friction Materials containing metal components, they strike a balance between aggressive stopping power and structural resilience. This article explores their technical specifications, formula innovations, advantages, and storage protocols.
Technical Parameters
The table below summarizes key technical specifications of metallic-based brake shoes:
| Parameter | Value/Range | Description |
|---|---|---|
| Friction Coefficient | 0.40–0.55 (dry conditions) | Higher friction ensures responsive braking, ideal for high-speed scenarios. |
| Operating Temperature | -20°C to 400°C | Exceptional heat tolerance prevents brake fade under heavy loads. |
| Wear Rate | ≤0.20 mm/1,000 km | Durable metallic fibers reduce wear, extending service life. |
| Density | 2.0–2.5 g/cm³ | High density enhances heat dissipation and structural integrity. |
| Hardness | 70–90 Shore A | Resists deformation during intense braking. |
Key Components of the Formula
- Brake Shoes Mixture
- Metallic Fibers: Steel or copper fibers (30–60% composition) provide high thermal conductivity and friction stability.
- Binders: Phenolic resins ensure cohesion and heat resistance.
- Additives: Graphite or ceramic particles reduce noise and balance friction characteristics.
- Brake Shoes Friction Materials
- Steel-Reinforced Layers: Improve tensile strength and rotor compatibility.
- Copper Inclusions: Enhance heat dissipation and reduce hot spots.
Advantages
- High-Performance Braking
- Metallic Brake Shoes Mixes deliver consistent friction even at extreme temperatures.
- Extended Lifespan
- Metal fibers resist wear, reducing replacement frequency by 20–30% compared to non-metallic variants.
- Heat Management
- Efficient heat dissipation prevents brake fluid vaporization and system failure.
- Cost-Effectiveness
- Durable materials lower long-term maintenance costs.
Storage and Packaging
- Storage Conditions:
- Store in dry environments (<30°C, humidity <50%) to prevent oxidation of metallic components.
- Packaging:
- Vacuum-sealed anti-corrosion bags to protect against moisture.
- Reinforced cartons with shock-absorbent padding for transport safety.
- Labels include material composition (e.g., copper content) and compliance certifications (e.g., ISO 9001).
Conclusion
Metallic-based brake shoes leverage advanced Brake Shoes Formula technology to deliver robust braking performance, particularly suited for high-stress riding conditions. By optimizing brake shoes friction materials and mixtures, they balance durability, heat resistance, and cost efficiency. For OEM applications or custom formulations, consult specialized manufacturers to meet specific regulatory or performance requirements.