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Brake Pads Mica Chips
At Annat, we define brake pads mica chips as high-performance, naturally derived mineral additives engineered to optimize the safety, durability, and thermal stability of Brake Pads Formula. Unlike generic fillers, our mica chips are processed through a precision purification and flaking process, resulting in a uniform lamellar structure that integrates seamlessly with resin, friction fibers, and abrasives—forming the “thermal backbone” of modern brake pads.
Brake Linings Mica Chips
The advantages of Annat’s brake pads mica chips stem from their unique material properties and technical performance:
First, exceptional thermal resistance—our mica chips maintain structural integrity at temperatures up to 600°C (1112°F), far exceeding the 350-450°C operating range of standard brake pads. This prevents thermal degradation of the brake pad matrix, reducing the risk of “brake fade” by 30% in high-stress scenarios (e.g., downhill braking or heavy-load transportation).
Second, superior friction stability—with a controlled hardness of 2.5-3 on the Mohs scale, our mica chips balance friction coefficient consistency (0.38-0.42 under dry conditions) and wear resistance. Field tests show brake pads infused with our mica chips deliver a 25% longer service life compared to those using traditional fillers like calcium carbonate.
Third, excellent compatibility and processability—our mica chips feature a particle size distribution of 100-200 mesh (75-150μm) and a moisture content below 0.5%, ensuring easy dispersion in Brake Pads Mixture. This reduces production defects (e.g., air bubbles or uneven density) by 18% and streamlines manufacturing efficiency.
Car Brake Pads Carbon Ceramic Formula
For Annat, brake pads mica chips are more than an additive—they are a critical component in enhancing driving safety. Whether for passenger cars, commercial vehicles, or industrial machinery, our mica chips are tailored to meet the strictest global standards, from ISO 6310 to SAE J2784, ensuring every brake application performs reliably under pressure.
