For automotive safety, consistent braking depends on stable friction coefficients—and Bull Chemicals’ brake pads Titanates-Potassium Magnesium is a transformative additive for optimizing brake pads friction materials. Engineered to maintain stable friction across extreme conditions (high-speed stops, temperature swings), below are its key benefits with precise data.
Table of Contents
First: Uniformity in Brake Pad Mixtures & Mixes
It integrates seamlessly into brake pads mixture and brake pads mixes, dispersing graphite, steel fiber, and resin evenly via its unique titanate whisker structure (no clumping/degradation). Tests (200–400°C) reduce coefficient fluctuations by 12%. In SAE J2522 dynamometer tests, 3% additive maintained 0.42 ± 0.02 over 5,000 cycles vs. 0.40 ± 0.05 for standard mixes—ensuring consistent braking feel.
Second: Durability in Brake Pad Formulas
In brake pads formula, its 6.5 Mohs hardness and 800°C thermal stability form a protective layer. This cuts wear by 18% and extends pad life by 25% (fleet test data). Compatible with organic, semi-metallic, and ceramic materials, it suits all vehicle types.
Third: Consistent Extreme-Condition Performance
-30°C cold starts maintain 0.38 friction (vs. 0.32 without), while 400°C resistance to glazing preserves 0.43 ± 0.03. ISO 6312 tests show 15% better coefficient variation than industry standards, ensuring reliability in intense use (e.g., downhill driving).
At Bull Chemicals, this additive elevates brake pads friction materials for safety and competitiveness. Contact us to optimize your formulations.
