The performance of passenger car brake pads is predominantly determined by the brake pads mixture, the core component of brake pads friction materials. Its precise proportion and scientific configuration directly dictate braking safety, stability, and service life. Bull Chemicals has been dedicated to optimizing brake pads mixes and formulas to boost the comprehensive performance of brake products.
Table of Contents
First: Stable Friction Performance Backed by Scientific Passenger Car Brake Pads Mixture
Our Passenger Car Brake Pads Mixture adopts a multi-component synergistic design, maintaining a stable friction coefficient of 0.38-0.45 within the temperature range of -40℃ to 600℃. This effectively avoids high-temperature friction decay and low-temperature starting lag, ensuring consistent braking force during emergency braking and long-distance travel, thus significantly enhancing driving safety.
Second: Excellent Wear Resistance Enabled by Optimized brake pads formula
The brake pads mixture is formulated with high-quality reinforcing fibers and wear-resistant fillers. The optimized brake pads formula reduces the average wear rate to 0.08 cm³/(MJ), 15% lower than the industry average. Meanwhile, the rational matching of brake pads friction materials minimizes brake disc wear, extending the service life of both components and reducing user maintenance costs.
Third: Efficient Heat Dissipation and Noise Reduction of Brake Pads Mixes
Our brake pads mixes integrate high-performance heat-conducting materials and damping components, with a thermal conductivity of 1.2 W/(m·K) that rapidly dissipates braking heat and prevents brake fade. Additionally, the special mixture structure suppresses braking noise, keeping the noise level below 65 decibels for a quieter driving experience.
In conclusion, the Passenger Car Brake Pads Mixture is the key to brake pad performance. Bull Chemicals will continue to refine formulas to provide reliable brake pads friction materials.
