Automotive brake performance is deeply influenced by friction material innovation, and the shift toward brass-free formulations has become a key industry advancement. Bull Chemicals’ Car Brake Pads No Brass Mixture leads this shift, optimizing brake pads friction materials through scientific design—below are its core advantages and precise performance data.
Table of Contents
First: Enhanced Corrosion Resistance & Longevity
As a premium brake pads mixture, the Car Brake Pads No Brass Mixture eliminates brass-induced rust and rotor pitting. Tested under 500 hours of salt spray exposure, it maintains 98% structural integrity, while traditional brass-containing brake pads mixes degrade by 15%. This brake pads formula uses corrosion-resistant ceramic and organic fibers, extending service life to 70,000+ km—28% longer than industry averages.
Second: Stable Friction & Reliable Stopping Power
Our brake pads mixes deliver consistent performance across extreme conditions: the friction coefficient stays at 0.44-0.49 (±0.02) between -20℃ and 680℃. When decelerating from 100 km/h, braking distance is shortened by 4.1 meters compared to brass-based alternatives. The optimized brake pads formula ensures no friction fade under continuous heavy braking, with performance deviation ≤2%.
Third: Eco-Friendliness & Reduced Maintenance
The Car Brake Pads No Brass Mixture cuts heavy metal emissions by 95% (compliant with EU 6 and EPA standards), eliminating brass particle pollution. It operates at ≤53 dB (18% quieter than brass-containing mixes) and produces 88% less brake dust, reducing rotor wear by 32%. Bull Chemicals’ strict quality control ensures every batch of brake pads friction materials meets global safety benchmarks.
Bull Chemicals’ Car Brake Pads No Brass Mixture redefines brake performance with corrosion resistance, stability, and eco-friendliness.
