In the field of advanced materials, aluminum nitride ceramics have become one of the most popular high-performance ceramic materials due to their excellent performance and wide applicability. This ceramic material, mainly composed of aluminum nitride (AlN) compounds, is like a shining pearl, showing unique advantages and unlimited potential in many engineering applications.
Aluminum nitride ceramics have the characteristics of thermal conductivity, insulation, chemical stability, high mechanical strength, and low thermal expansion coefficient. Suitable for various high-temperature, high-frequency, and high-power engineering applications.
Aluminum nitride (AIN) ceramics have the following outstanding characteristics:
Good mechanical properties, with higher bending strength than Al2O3 and BeO ceramics
High temperature resistance and corrosion resistance
High thermal conductivity combined with good electrical insulation properties.
Excellent stability when exposed to a variety of molten salts
Thermal stability up to 1000°C, good mechanical properties extending to high-temperature range.
Low thermal expansion and thermal shock resistance
The main processing methods of aluminum nitride ceramics are as follows:
Ceramic injection molding
Low-pressure injection molding
Cold isostatic press
Dry pressing molding
Casting molding
Precision machining
provides customers with customized aluminum nitride ceramic products with excellent performance through a variety of molding and processing methods. They are widely used in electronic packaging, laser technology, microwave and radio frequency applications, high-temperature environment applications, and optical devices.