The role of substrate support mat

Application of Ceramic Materials in Automotive Engine designers is always looking for alternative ways to reduce cost and emissions and improve fuel economy and performance. One way to improve car design is through material substitution. Ceramics can be used as a technology for many key components in future engines because of their unique heat, wear and corrosion resistance, lightweight, and electrical and thermal insulation properties. Ceramics have played an important role in automobiles from the beginning, mainly in spark plug insulators and glass windows. The above is the role of substrate support mat.

Development of substrate support mats

Almost all catalytic converters in modern vehicles have ceramic honeycomb supports for catalysts, which are very useful in reducing vehicle exhaust emissions. Most modern cars also use ceramic oxygen sensors in conjunction with computer controls to optimize combustion and reduce exhaust emissions. Computer controls and other electronic equipment in automobiles use a large number of ceramic substrates and components that are critical to the device's performance. Also, many electric motors are used in modern cars to automatically adjust seats, windows, etc., ceramic magnets are used in many of these electric motors. Ceramic components are also being introduced into the fuel system and valve train of heavy-duty diesel engines. Future cars may use ceramics in internal engine structural components, wear-resistant applications in fuel systems, and in accessory components in valve trains such as valves and valve seats. In the future, ceramic fuel cells could also be used in driverless cars. The above is the development of substrate support mats

Advantages of substrate support mat

Ceramic material brake system Ceramic composite brake rotors, standard equipment in Formula 1 racing cars, are currently being offered on select high-performance passenger cars, including any Ferrari, Lamborghini, and Porsche, Bentley Conti GT Diamond, and Audi RS4. These ceramic brakes can reduce vehicle weight by Over 10 pounds, resists heat-induced decay, and is expected to last for the life of the vehicle. The life of the pads has been tripled, and handling is improved thanks to reduced spring weight (the suspension body does not support the weight of the body and components). Similar ceramic composite brakes of the same type made by Starfire Systems are being tested by the motorcycle racing market, including Honda, Yamaha, Kawasaki, Suzuki, and Harley-Davidson. Unlike regular steel discs, these ceramic-type rotors actually perform well as their temperature rises. They have been shown to improve fuel efficiency, acceleration, braking consistency, and overall life. These advantages are achieved while improving braking and handling performance, even at the limit.

With less unsprung mass, such rotors offer the possibility of being designed for heavy components in all corners of the vehicle. Lightweight (7.7 pounds or 3.5 kilograms), the Carrera GT's multi-plate clutch is smaller than any comparable unit and is more than 50 percent lighter than the conventional clutch used in the Porsche 911 Turbo. The composite material is a combination of carbon fiber braid and silicon carbide; silicon carbide is almost as hard as diamond and has excellent wear resistance and high-temperature resistance. These properties make composites an ideal choice. The above are the advantages of substrate support mat.

Through the above introduction, I believe that everyone has learned about the role of substrate support mat, the development of substrate support mats, and advantages of substrate support mat. Here I recommend you an excellent supplier of substrate support mat, KY-Mat Material Co., Ltd ., you are welcome to visit and buy.