Extreme High-Temperature Resistance and Thermal Conductivity: Under extreme temperatures exceeding 1600°C, most materials will soften or melt. In contrast, high-purity silicon carbide ceramics maintain their structural integrity and strength. Their excellent thermal conductivity ensures rapid heat dissipation, making them an ideal choice for high-temperature components such as semiconductor wafer manufacturing equipment and aerospace nozzles.
Exceptional Wear and Corrosion Resistance: With a hardness second only to diamond, they can withstand high-speed particle erosion and resist strong acids and alkalis. This significantly extends the service life of critical equipment under harsh operating conditions, bringing revolutionary changes to the chemical machinery, high-end pump, and valve industries.
Low Density and High Stiffness: As light as aluminum yet stronger than steel, they enable weight reduction and efficiency improvement in high-end equipment. They are widely used in precision optical components, high-performance braking systems, and defense technology applications.
Outstanding Semiconductor Properties: As a core substrate material for third-generation semiconductors, high-purity silicon carbide is crucial for manufacturing efficient power devices, advancing electric vehicle fast-charging technology, and upgrading power grids. It is directly linked to national "carbon neutrality" strategic initiatives.
Biocompatibility: In the medical field, their stable chemical properties and smooth surfaces provide innovative solutions for surgical instruments and high-end implants.