High-carbon ceramic brake pads and carbon ceramic brake pads are two high-performance brake materials. So what’s the difference between them?
High carbon ceramic brake padsBrake Pads: These brake pads are usually made from a mixture of materials such as ceramic fiber, aramid fiber and mineral fiber. Their advantages include maintaining a stable coefficient of friction in high-temperature environments, good wear resistance, producing less noise and dust, and causing less wear on the brake discs. High-carbon ceramic brake pads are suitable for everyday driving, providing smooth and quiet braking, especially in urban environments.
Carbon ceramic brake pads: Carbon-ceramic brake pads are made of reinforced composite ceramic materials synthesized from carbon fiber and silicon carbide at high temperatures. Compared to traditional brake pads, carbon-ceramic brake pads have higher heat resistance, acoustic density (lighter weight) and longer service life. Carbon-ceramic brake pads are excellent at withstanding extremes and are more than half the weight of traditional brake pads of the same size, often improving vehicle performance and racing performance.
High-carbon ceramic brake pads and carbon ceramic brake pads Performance comparison
High carbon ceramic brake pads:
High temperature stability: It has more stable performance in high temperature environments, is not easy to degrade, and can maintain the stability of the braking effect.
Strong wear resistance: Due to the addition of a large amount of carbon, ceramics and other materials, the surface hardness is higher and the wear resistance is stronger.
Reduce brake dust: Ceramic materials help reduce the generation of brake dust and are more environmentally friendly.
Good no noise performance: Compared with brake pads made of other materials, they make less noise during braking and operate more quietly.
Good transition performance: The brake pads have a certain transition process before braking. The high-carbon ceramic brake pads have better transition performance and brake more smoothly.
Carbon ceramic brake pads:
Extremely high thermal stability and thermal decay resistance: able to maintain stable braking performance at high temperatures or even ultra-high temperatures.
Excellent braking performance: It can provide shorter braking distance and more stable braking effect under extreme working conditions such as high speed and heavy load.
Extremely strong wear resistance: It can effectively resist wear during braking and extend the service life of the brake.
Light weight: Compared with traditional metal brake materials, carbon ceramic brake materials have a lighter mass, which helps improve the fuel economy and power performance of the vehicle.
Environmental protection: The dust and noise generated during the braking process are small, and the pollution to the environment is small.
What is the difference in service life between high carbon ceramic brake pads and carbon ceramic brake pads?
High carbon ceramic brake pads and carbon ceramic brake pads are both high-performance brake materials, but they differ in their service life.
High-carbon ceramic brake pads usually have a long service life and can be used for more than 100,000 kilometers under normal driving conditions.
They provide good wear and heat resistance while producing less noise and dust, helping to keep your vehicle clean.
Carbon-ceramic brake pads are typically used on high-performance vehicles and racing cars. They perform better in extreme conditions and may have a longer service life. There are reports that the service life of carbon ceramic brake pads can be as long as 300,000 kilometers or more.
Benefit to their high heat and abrasion resistance. Carbon-ceramic brake pads maintain stable braking performance when withstanding extreme temperatures and continuous braking.
In general, carbon ceramic brake pads generally better than high-carbon ceramic brake pads in terms of service life, especially under high-temperature and high-intensity use conditions. However, high-carbon ceramic brake pads also offer longer service life and better performance than traditional brake pads, making them suitable for most daily driving and some high-performance driving needs.
What is the price difference between carbon ceramic brake pads and high carbon ceramic brake pads?
The price difference between carbon ceramic brake pads and high-carbon ceramic brake pads is mainly reflected in materials, production processes and performance. Carbon-ceramic brake pads are usually more expensive because they use higher-end materials and more complex manufacturing processes, such as carbon fiber and silicon carbide. These materials are synthesized at high temperatures of 1,700°C, providing excellent high-temperature resistance and light weight. Quantitative advantage
In addition, carbon ceramic brake pads are more than half lighter than traditional brake discs of the same size, but the cost is also relatively high.
In contrast, although high-carbon ceramic brake pads also use materials such as ceramic fibers, their costs are relatively low and their prices are more affordable. These pads offer good wear and heat resistance, but may not perform as well as carbon ceramic pads in extreme conditions.
Specific to the price difference, the price of carbon ceramic brake pads may reach several thousand dollars due to its high-end market positioning and high-performance features, while the price of high-carbon ceramic brake pads may range from tens to hundreds of dollars. However, these prices will vary based on factors such as make, model, market and region.
In conclusion
When selecting brake pads, car owners should consider their driving habits, vehicle type and budget, while also considering the performance and durability of the brake pads. High-performance vehicles or vehicles that frequently participate in track driving may be more inclined to choose carbon ceramic brake pads, while vehicles driven daily may choose high-carbon ceramic brake pads that are more cost-effective.
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