PASSENGER CAR BRAKE PADS MIXTURE

Car Brake Pads Less Metallic Mixture

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    Introduction to Car Brake Pads Less Metallic Mixture
    Less metallic brake pads are engineered to reduce the reliance on traditional metallic components while maintaining high braking efficiency. Utilizing advanced brake pads mixtures composed of ceramic fibers, aramid particles, and modified resins, this brake pads formula prioritizes performance, environmental safety, and compatibility with modern vehicles. The brake pads friction material is optimized to minimize wear on rotors and reduce noise, making it ideal for urban and hybrid/electric vehicles.

    Technical Parameters

    The table below outlines key specifications of a high-performance less metallic brake pads mixture:

    ParameterValue/Range
    Operating Temperature Range-30°C to 600°C
    Friction Coefficient (μ)0.35–0.42 (dry/wet conditions)
    Wear Rate≤0.12 mm³/(N·m)
    Compressive Strength≥48 MPa
    Noise Level<65 dB (tested at 50 km/h)
    Packaging Specification10 pairs/box, vacuum-sealed bags

    Key Advantages

    1. Reduced Environmental Impact
      • Free from heavy metals (e.g., copper, brass) and asbestos, aligning with global regulations like EU RoHS and REACH.
      • Lower dust emissions compared to semi-metallic pads, preserving air quality.
    2. Enhanced Rotor Longevity
      • Low-abrasive brake pads mixes minimize scoring and wear on brake discs, extending rotor life by up to 25%.
    3. Quiet Operation
      • Vibration-dampening additives and chamfered edges eliminate high-frequency squealing, ensuring noise levels below 65 dB.
    4. Thermal Stability
      • Ceramic-augmented brake pads friction material maintains consistent friction coefficients even at 600°C, preventing brake fade during aggressive driving.

    Storage and Packaging

    • Storage Guidelines:
      • Store in dry, ventilated areas (10°C–35°C) to prevent resin degradation.
      • Avoid humidity exceeding 60% and direct sunlight to preserve adhesive integrity.
    • Packaging:
      • Individually wrapped in anti-static, moisture-proof bags with desiccants for humidity control.
      • Bulk shipments use reinforced cardboard boxes with shock-absorbing liners to prevent transit damage.

    Applications

    Ideal for hybrid/electric vehicles, urban commuter cars, and light commercial fleets requiring low-noise, low-dust braking solutions. The less metallic brake pads formula is compatible with most disc brake systems, offering a sustainable alternative to traditional metallic pads.

    By integrating cutting-edge brake pads friction materials and rigorous quality testing, this mixture delivers a balance of durability, safety, and eco-friendliness, setting a new standard for modern automotive braking systems.