Light Ablation Ceramic brake pads
This mid-range ceramic formula (HRF6106) has a copper content of 3% and a friction coefficient grade of GG, making it one of the popular formulas in the Middle East and South American markets in recent years. After ablation, not only does it improve the wear resistance, oxidation resistance, and overall performance of brake pads, but it also makes them more suitable for high-intensity use, providing drivers with a safer and more comfortable driving experience.
Product Introduction
Some buyers prefer to burn ceramic brake pads before leaving the factory, mainly because burning can increase the friction coefficient of ceramic brake pads, improve their braking performance and wear resistance. In addition, erosion can also remove surface pollutants and improve the braking effect of ceramic brake pads. During the ablation process, ceramic brake pads are exposed to high temperature and high pressure environments, resulting in the formation of small holes and bumps on their surface. These holes and bumps can increase the friction area between the brake pads and the wheels, thereby improving braking performance.
Although ablation can improve the performance of ceramic brake pads, if the ablation temperature is not well controlled or the time is too long, it can also cause deformation of the microstructure on the surface of the brake pads, reducing their performance.
If there is no erosion before leaving the factory, ceramic brake pad erosion will also occur after long-term brake use, causing a certain degree of friction and wear between the surface of the brake pad and the brake disc, forming a dense oxide layer. This oxide layer can improve the performance of the brake pad to a certain extent, making it more suitable for high-strength use.
Firstly, the erosion of ceramic brake pads can improve their wear resistance. During the ablation process, the ceramic material on the surface of the brake pad is heated and forms a hard oxide layer with the surface of the brake disc. This oxide layer can improve the wear performance of the brake pad and make it more durable during long-term use.
Secondly, the erosion of ceramic brake pads can improve their oxidation resistance. During the ablation process, the ceramic material on the surface of the brake pad undergoes a chemical reaction, forming a dense oxide layer. This oxide layer can prevent the brake pad from oxidizing and corroding at high temperatures, thereby improving its antioxidant performance.
In addition, the ablation of ceramic brake pads can also improve their overall performance. The surface of the ceramic brake pads after ablation is smoother, which not only reduces noise and vibration during braking, but also improves the braking effect, making driving safer.
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