Brake Pads Carbon Metallic Formulas

Bus Brake Pads Carbon Metallic Formula

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    The Bus Brake Pads Carbon Metallic Formula represents a significant advancement in bus braking technology. It is meticulously crafted using high – quality Bus Brake Pads Carbon Friction Materials, Bus Brake Pads Carbon Mixes, and Bus Brake Pads Carbon Ingredients, creating a unique blend that offers exceptional performance.

    Distinctive Advantages

    1. Exceptional Braking Performance
    • The carbon – metallic composition of these brake pads provides an extremely high and stable friction coefficient. This enables buses to decelerate rapidly and effectively, even in the most demanding braking situations. Whether it’s a sudden stop in traffic or a high – speed emergency braking, the Bus Brake Pads Carbon Metallic Formula ensures reliable and powerful braking, significantly reducing the stopping distance and enhancing passenger safety.
    1. Outstanding Heat Resistance
    • Composed of advanced carbon – based materials, these brake pads can withstand extremely high temperatures. They can endure temperatures up to 1000°C without significant fade in braking performance. This high – temperature resistance is crucial for heavy – duty vehicles like buses, which often experience intense heat during braking. It allows the brake pads to maintain consistent braking power, reducing the risk of brake failure.
    1. Long – Lasting Durability
    • The combination of carbon and metallic elements in the Bus Brake Pads Carbon Mixes and Bus Brake Pads Carbon Ingredients results in remarkable wear – resistance. These brake pads can withstand the continuous friction and stress of regular bus braking over an extended period. With an estimated service life of 150,000 – 200,000 km, they require fewer replacements, reducing maintenance costs and downtime for bus operators.
    1. Lightweight Design
    • Incorporating carbon – based materials, these brake pads are relatively lightweight compared to traditional metallic brake pads. A lighter brake pad reduces the unsprung mass of the vehicle, which improves fuel efficiency and overall vehicle handling. It also places less stress on the braking system components, extending their lifespan.
    1. Low Brake Dust Emission
    • The Bus Brake Pads Carbon Metallic Formula produces significantly less brake dust compared to many other brake pad materials. This not only keeps the wheels of the buses cleaner, enhancing their aesthetic appeal, but also reduces the environmental impact associated with brake dust emissions.

    Key Product Technical Parameters

    • Constant Speed Coefficient: 0.45
    • This coefficient indicates a stable and strong friction force during constant – speed braking. It ensures a smooth and predictable braking experience for bus drivers, allowing them to have precise control over the vehicle’s deceleration.
    • AK MASTER Coefficient: 0.43
    • Representing the performance under high – speed and high – load braking conditions, this coefficient demonstrates the excellent braking ability of the Bus Brake Pads Carbon Metallic Formula. It shows that the brake pads can perform well even in challenging braking scenarios, maintaining their efficiency.
    • Bulk Density: 1.1
    • The relatively low bulk density of 1.1 is a result of the use of lightweight carbon – based materials. It contributes to the overall lightweight nature of the brake pads while still maintaining their structural integrity.
    • Thermal Conductivity: 30 – 35 W/(m·K)
    • This high thermal conductivity value allows for efficient heat dissipation. The brake pads can quickly transfer heat away from the braking surface, preventing overheating and ensuring consistent braking performance even during continuous use.
    • Compression of Normal Temp.: 80μm±10
    • This parameter reflects the dimensional stability of the brake pads at normal temperatures. It ensures a proper fit within the braking system of buses, preventing any issues related to fitment and ensuring optimal functionality.
    • Shear Strength: ≥4.5Mpa
    • A high shear strength of ≥4.5Mpa ensures that the brake pad material can withstand the forces exerted during braking without breaking or delaminating. This high shear strength is essential for the long – term integrity and performance of the brake pads.

    Packaging and Storage

    1. The Bus Brake Pads Carbon Metallic Formula products are usually packaged in 25KG/bag with high – quality double – layer paper bags. This packaging provides good protection during transportation and storage, safeguarding the quality of the carbon – based materials. Customized packaging options are also available to meet the specific requirements of bus operators or manufacturers.
    2. After opening, the bags should be tightly resealed and stored upright in a dry, cool, and well – ventilated area. Avoid direct sunlight exposure as it can cause the carbon – based materials to degrade over time.
    3. Proper handling of the product during use is crucial to avoid environmental contamination. Users should follow the recommended installation and usage guidelines provided to ensure the best performance and safety of the Bus Brake Pads Carbon Metallic Formula.