As a high-performance structural material, silicon carbide ceramics have demonstrated irreplaceable advantages in multiple industrial fields. Its high hardness, high temperature resistance and excellent chemical stability make it widely used in high-temperature industrial equipment. For example, high-temperature furnace linings and corrosion-resistant reactor linings in the metallurgical industry are often made of silicon carbide ceramics, which can withstand extreme environments above 1300°C and significantly extend the service life of the equipment.
In the field of semiconductor manufacturing, with its stable electrical properties and low thermal expansion coefficient, silicon carbide ceramics have become an ideal choice for electrostatic chucks and vacuum chamber components in wafer processing equipment, effectively improving the accuracy and efficiency of chip manufacturing.
The mechanical processing industry has solved the wear resistance requirements of high-speed rotating parts under harsh working conditions by applying silicon carbide ceramics to precision bearings and sealing rings. In the chemical industry, with its excellent acid and alkali corrosion resistance, silicon carbide ceramics are made into reactor linings and piping systems to maintain structural integrity in strong acid and alkali media and avoid the corrosion risks of traditional metal materials.
With the development of new energy technologies, this type of material has also shown its unique value in cutting-edge fields such as nuclear reactor neutron absorption components and fuel cell bipolar plates. Silicon carbide ceramics continue to promote the development of modern industrial manufacturing technology towards a more efficient and environmentally friendly direction through multidisciplinary cross-application
