The core performance of passenger car brake pads relies heavily on their material composition, and the PASSENGER CAR SEMI metallic brake pads mixes is crucial for optimizing braking stability, response and durability. Bull Chemicals has optimized this high-performance mixture, making its brake pads friction materials popular in the passenger car market.
Table of Contents
First: Superior Heat Dissipation for High-Temperature Stability
The PASSENGER CAR SEMI METALLIC BRAKE PADS MIXES contains 35-40% metal fibers and heat-resistant resin, offering excellent heat dissipation. It can reduce brake pad temperature by 80℃ in 5 minutes under continuous braking, maintaining a friction coefficient of 0.40-0.48 at 650℃. The heat fading rate is less than 10%, 25% lower than ordinary ceramic brake pads mixes, avoiding high-temperature braking failure.
Second: Strong Friction for Faster Braking Response
The scientific brake pads formula enhances friction performance significantly. Metal particles like iron and copper form a dense friction layer, shortening braking response time to 0.2-0.3 seconds (15% faster than full-ceramic pads). It provides a maximum braking force of 1800N, reducing the braking distance of a 1.5-ton car by 3-4 meters at 100km/h, improving emergency safety.
Third: High Durability for Longer Service Life
Compared with other brake pads friction materials, this mixture boasts outstanding durability. Metal reinforcements boost structural strength, reducing wear rate to 0.12 cm³/(MJ). Its service life reaches 50,000-70,000 kilometers, 20% longer than ordinary organic pads, lowering replacement frequency and use cost.
In summary, the PASSENGER CAR SEMI METALLIC BRAKE PADS MIXES determines semi-metallic brake pad performance, and its advantages make it a top choice for mainstream passenger cars.
