At Bull Chemicals, we prioritize compliance with global automotive safety standards and adaptability to diverse braking scenarios for our Acrylic Fiber – based Brake Pads. Below is a detailed breakdown of their core advantages and performance data.
Table of Contents
First: Compliance Rooted in Material Advantages
Acrylic Fiber, as a key component in brake pads friction materials, inherently meets strict industry regulations. It boasts a heat resistance of up to 280°C, far exceeding the 200°C limit set by the ECE R90 standard for brake pad materials. When integrated into the brake pads formula, it ensures stable friction coefficient output (0.38 – 0.42) without releasing harmful substances, fully complying with RoHS and REACH environmental compliance requirements.
Second: Adaptability Reflected in Mixture Versatility
Our brake pads mixture, with Acrylic Fiber as a core ingredient, exhibits strong adaptability to different working conditions. In low – temperature environments (-30°C to 0°C), the brake pads mixes maintain 95% of their normal braking efficiency; in high – speed and heavy – load scenarios, the wear rate is only 0.008g/km, which is 30% lower than that of traditional fiber – reinforced brake pads. This adaptability stems from Acrylic Fiber’s excellent toughness and compatibility with other components in the mixture.
Third: Data – Driven Performance Assurance
Precise data further verifies the compliance and adaptability of our Acrylic Fiber Brake Pads. In 10,000 – cycle braking tests, the friction coefficient fluctuation is less than ±5%, meeting the SAE J2522 compliance standard. Meanwhile, the brake pads can adapt to various vehicle types, from compact cars to light commercial vehicles, with the Acrylic Fiber content in the formula adjusted between 8% – 12% to match different braking load demands.
In conclusion, Bull Chemicals’ Acrylic Fiber Brake Pads achieve a perfect balance of compliance and adaptability, supported by superior material properties and precise data, providing reliable braking solutions for the automotive industry.
