At Annat Frictions, our no-metallic car brake pads redefine braking performance through a precision-engineered Brake Pads Formula—a result of 12+ years of R&D in friction material science. Unlike traditional metallic alternatives, our solution eliminates iron, steel, or copper components, relying instead on a advanced blend of high-grade organic fibers, ceramic particles, and thermoset resins. This isn’t just a simple Brake Pads Mixture; it’s a calibrated system where every ingredient works in synergy to balance friction, durability, and safety.
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Car Brake Pads No Metallic Formula
So, how does it operate? When you press the brake pedal, our Brake Pads Friction Materials make contact with the rotor. The no-metallic formula generates a consistent coefficient of friction (μ) of 0.42–0.48 across a wide temperature range (-30°C to 650°C)—far more stable than metallic pads, which often drop to μ=0.35 at extreme heat. This stability ensures predictable stopping power: in third-party tests, our no-metallic pads achieved a 17% shorter braking distance (from 100km/h to 0) compared to metallic counterparts, even after 500+ consecutive stops.
Car Brake Shoes Ceramic Based Formula
Durability is another key advantage of our Brake Pads Mixes. We’ve optimized the fiber-resin ratio to resist wear, boasting an average lifespan of 65,000–75,000 km—20% longer than standard organic pads. Additionally, the no-metallic composition eliminates rotor scoring (tests show <0.02mm rotor wear after 30,000 km) and reduces brake dust by 45%, keeping wheels cleaner while minimizing environmental impact (our formula is RoHS-compliant, with zero heavy metal leaching).
Car Brake Shoes Ceramic Formula
For drivers, this translates to three core benefits: quieter operation (noise levels <58 dB at 60km/h, vs. 65+ dB for metallic pads), smoother pedal feel, and long-term cost savings from fewer pad replacements and reduced rotor maintenance. At Annat Frictions, we don’t just manufacture brake pads—we engineer trust, one precision brake pads formula at a time.
