Advanced ceramics can be divided into oxide ceramics, nitride ceramics, carbide ceramics, boride ceramics, silicide ceramics, fluoride ceramics, sulfide ceramics, etc. according to their chemical composition. According to performance and use, it can be divided into two categories: functional ceramics and structural ceramics. Functional ceramics are mainly based on the special functions of materials, and have electrical, magnetic, biological, thermal and optical characteristics, including insulation and dielectric ceramics, ferroelectric ceramics, piezoelectric ceramics, semiconductors and sensitive ceramics; structural ceramics are mainly based on the mechanical and structural uses of the material, it has the characteristics of high strength, high hardness, high temperature resistance, corrosion resistance, and oxidation resistance. It mainly includes oxide ceramics, nitride ceramics, carbide ceramics, and boride ceramics.
Advanced ceramics have been widely used in high temperature, corrosion, electronics, optics and medical fields. The traditional and strategic emerging industries, such as energy saving and environmental protection, electronics and information technology, biomedicine, mechanical power, high-end equipment manufacturing, nuclear energy, new energy, automobiles and new energy automobiles, aerospace, defense, have broad application prospects.
The Advanced Ceramics Alliance is guided by domestic and foreign market needs, with research and development and technological innovation advantages, focusing on specific market segments in the advanced ceramics field, breaking through key technologies that restrict the development of the industry, and providing target customers with high value-added, differentiated advanced ceramic products and service.