Why do alumina ceramics become an ideal material for industrial high wear and high corrosion environments?

In modern industrial manufacturing, many equipments operate for a long time in harsh environments with high temperature, high pressure, strong corrosion or high wear, which puts extremely high requirements on the performance of parts.

Why have zirconia ceramics become an indispensable high-performance material in modern industry?

Zirconia ceramics occupy an important position in modern industry with its excellent mechanical strength, wear resistance, corrosion resistance, high temperature resistance and diversified forming processes.

Why are silicon carbide ceramics the ideal material for high-performance industrial parts?

In modern industrial manufacturing, facing extreme working conditions such as high temperature, high pressure, strong corrosion and high wear, traditional metal materials often cannot meet the stringent performance requirements.

How to regulate the mechanical properties and thermal conductivity of silicon carbide ceramics through microstructure?

The optimization of phase composition cannot be ignored either. Silicon carbide has many crystal forms, such as 3C-SiC, 6H-SiC, etc., and the performance of different crystal forms varies.

What are the effects of different sintering techniques on the microstructure and properties of zirconia ceramics?

The properties of zirconia ceramics are closely related to their microstructure, and the choice of sintering technology plays a key role in shaping their microstructure.

How does the fracture toughness of alumina ceramics affect its long-term stability in high-stress mechanical seals?

Alumina ceramics, as a high-performance inorganic non-metallic material, occupies an important position in high-end manufacturing fields such as mechanical seals due to its excellent mechanical properties, electrical properties and chemical stability.