The advantages of using our company's high-end ceramic brake pads are as follows compared to other types of brake pads:

(1) The difference between ceramic brake pads and traditional brake pads is the absence of metal. In traditional brake pads, metal is the main material that generates friction, with strong braking force but high wear and tear, and is prone to noise. After installing ceramic brake pads, there will be no abnormal noise (i.e. scraping sound) during normal driving. Because ceramic brake pads do not contain metal components, they avoid the metallic noise caused by the friction between traditional metal brake pads and their mating parts (i.e. brake pads and brake discs).

(2) Stable friction coefficient. The coefficient of friction is an important performance indicator for any friction material, which is related to the braking ability of brake pads. During the braking process, due to the heat generated by friction, the working temperature increases, and the friction material of general brake pads is affected by temperature, causing the friction coefficient to begin to decrease. In practical applications, it will reduce friction and thus decrease braking effect. The friction material of ordinary brake pads is not mature, and the high friction coefficient can cause unsafe factors such as lost direction, burnt pads, and scratched brake discs during the braking process. Even when the temperature of the brake disc reaches 650 degrees, the friction coefficient of ceramic brake pads is still around 0.45-0.55, ensuring good braking performance of the vehicle.

(3) Ceramics have good thermal stability, low thermal conductivity, and good wear resistance. The long-term use temperature is 1000 degrees, which makes ceramics suitable for the high-performance requirements of various high-performance brake materials, and can meet the technical requirements of high-speed, safe, and highly wear-resistant brake pads.

(4) Has good mechanical strength and physical properties. Capable of withstanding significant pressure and shear forces. Before assembly and use, friction material products need to undergo mechanical processing such as drilling and assembly in order to produce brake pad assemblies. Therefore, it is required that the friction material must have sufficient mechanical strength to ensure that there is no damage or fragmentation during processing or use.

(5) Has very low thermal attenuation. Whether it is the first generation ceramic products of M09 material or the fourth generation ceramic brake pads of TD58, it can still ensure that the vehicle has good braking performance to ensure safety, and the phenomenon of brake pad thermal attenuation is very small.

(6) Improve the performance of brake pads. Due to the fast heat dissipation of ceramic materials, their friction coefficient in the manufacturing of brakes is higher than that of metal brake pads.

(7) Security. Brake pads generate instantaneous high temperatures during braking, especially during high-speed driving or emergency braking. At high temperatures, the friction coefficient of the friction plate will decrease, which is called thermal degradation. The low thermal degradation of ordinary brake pads results in delayed braking and even loss of braking effect due to the increase in brake oil temperature during high temperature conditions and emergency braking, with a low safety factor.

(8) Comfort. In terms of comfort indicators, car owners often care about the noise level of brake pads, which is actually a problem that ordinary brake pads have been unable to solve for a long time. Noise is generated by abnormal friction between friction plates, and its causes are very complex, including braking force, brake disc temperature, vehicle speed, and climate conditions.

In addition, the reasons for the generation of noise during the three different stages of braking initiation, braking implementation, and braking release are different. If the noise frequency is between 0-550Hz, it will not be felt inside the car, but if it exceeds 800Hz, the owner can clearly feel the braking noise.

(9) Excellent material properties. Ceramic brake pads are made of high-tech materials such as large particle graphite/brass/advanced ceramics (non asbestos) and semi metals, which have the advantages of high temperature resistance, wear resistance, brake stability, repairing damaged brake discs, environmental protection, and long noise free service life. They overcome the material and process defects of traditional brake pads and are currently internationally recognized as advanced ceramic brake pads. In addition, ceramic slag balls have low content and good reinforcement, which can also reduce the dual wear and noise of brake pads.

(10) Long service life. The service life is a very important indicator for everyone. The service life of ordinary brake pads is below 60000 kilometers, while the service life of ceramic brake pads is over 100000 kilometers. That's because the unique formula material used for ceramic brake pads only contains 1 to 2 types of electrostatic powders, while the other materials are all anti-static materials. This way, the powder will be carried away by the wind with the movement of the vehicle and will not adhere to the wheel hub, affecting its appearance. The lifespan of ceramic materials is increased by more than 50% compared to ordinary semi metals. After using ceramic brake pads, there will be no scratches on the brake disc, which extends the service life of the original brake disc by 20%.