At Annat, we recognize cellulose fiber as a critical, performance-driven component in modern Brake Pads Formula—one that balances mechanical strength, thermal stability, and environmental compatibility to redefine braking reliability.
By definition, Brake Pads Cellulose Fiber is a plant-derived, high-purity reinforcing material engineered for seamless integration into friction composites. Unlike synthetic alternatives, its unique molecular structure delivers dual core benefits: it enhances the pad’s structural integrity while optimizing friction consistency, making it indispensable for both passenger vehicles and heavy-duty applications.
Table of Contents
Brake Pads Cellulose Fiber
The advantages of cellulose fiber in brake pads are rooted in quantifiable performance:
• Superior Thermal Stability: It maintains structural integrity at temperatures up to 280°C (536°F)—exceeding the average operating range of passenger car brake systems (150–250°C)—preventing pad degradation or “fade” during intense braking.
Brake Linings Cellulose Fiber
• Controlled Friction Coefficient: When integrated at a precise loading rate of 8–12% (by weight) in Annat’s formulations, it stabilizes the friction coefficient between 0.38–0.42 (dry condition), ensuring smooth, predictable stopping power without sudden grabs or slips.
• Reduced Wear & Noise: Its flexible, fibrous structure acts as a buffer, cutting down on rotor wear by 15–20% compared to fiber-free pads. Additionally, it dampens vibration, lowering braking noise to below 65 decibels (equivalent to normal conversation volume).
Car Brake Pads Metallic Free Formula
• Eco-Friendly & Cost-Efficient: As a renewable resource, it reduces reliance on petroleum-based fibers, aligning with sustainability goals. Its low density (1.5 g/cm³) also lightens the pad’s overall weight, contributing to minimal fuel consumption overhead.
For Annat, cellulose fiber is more than an additive—it’s a cornerstone of our commitment to safe, durable, and sustainable braking solutions. Whether for daily commuting or industrial use, it ensures every brake pad we develop meets the highest standards of performance and reliability.
