Guangzhou Eitel Technology Co., Ltd.
Add to Cart
Durable Using Heavy-Duty Automotive Lift Cable with Strong Toughness
Features
1. Brake disc resin gears are an innovative component in modern braking systems, designed to provide a lightweight yet durable alternative to traditional metal gears.
2. These gears are manufactured using high-performance engineering plastics or composite resin materials, which offer excellent resistance to wear, corrosion, and thermal degradation while significantly reducing the overall weight of the braking system.
3. The use of resin-based materials enhances fuel efficiency and handling in automotive applications by minimizing unsprung mass, leading to improved vehicle dynamics and smoother braking performance, especially in electric vehicles (EVs) and hybrid cars that prioritize weight reduction for extended battery range.
4. One of the key features of brake disc resin gears is their ability to operate with minimal noise and vibration, making them ideal for applications where acoustic comfort is a priority.
Unlike metal gears that can produce significant gear chatter and operational noise, resin gears exhibit superior damping properties, absorbing vibrations and reducing transmission noise for a quieter driving experience.
This makes them particularly valuable in passenger vehicles, electric cars, and precision industrial machinery, where noise reduction is a critical performance factor and contributes to overall user comfort and satisfaction.
Thermal resistance is another crucial aspect of brake disc resin gears, as braking systems generate substantial heat during operation, which can compromise the integrity of conventional plastic components.
To address this challenge, advanced resin materials are engineered with high-temperature stability, ensuring they can withstand elevated thermal loads without melting, warping, or degrading.
Additionally, some resin gears incorporate heat-resistant fillers such as carbon fiber, glass fiber, or ceramic particles to enhance thermal conductivity and dissipate heat more effectively, preventing excessive temperature buildup and ensuring consistent braking performance.