The Ceramic Wafer Chuck provides stable, accurate wafer handling for semiconductor processes like lithography, etching, and deposition. It’s made of durable, thermally stable materials such as alumina, silicon carbide, and silicon nitride. (read more)

Zirconia (ZrO₂) material is known as one of the hardest ceramics. It also has properties of high thermal expansion, low thermal conductivity, superior resistance to abrasion/wear and corrosion, as well as high temperature resistance. Due to its excellent fracture toughness, zirconium oxide ceramic performs not that brittle as aluminum oxide ceramic... (read more)

Alumina ceramic offers superior mechanical strength, electrical insulation, and high temperature resistance. Available in various purities (95%, 96%, 99%, 99.8%) for diverse industrial applications. (read more)

Aluminum nitride ceramics are widely used in the semiconductor field. With the characteristics of high thermal conductivity and low thermal expansion, they are used to manufacture equipment components, packaging substrates, GaN substrates and high-insulation films. They are the core material of high-performance semiconductor devices. (read more)

Alumina ceramic offers excellent mechanical strength, wear resistance, and electrical insulation. Available in various grades, it suits a wide range of applications, including high-temperature components, electrical insulators, and substrates. (read more)

Silicon Nitride ceramic offers both outstanding mechanical strength and extraordinary thermal shock resistance. So it’s an ideal material when dynamic stress and thermal rigor are required. Compared with most metals, Silicon Nitride can withstand higher temperature, resist oxidation and corrosion, and has properties of high wear resistance. With all this combination of properties... (read more)

Machinable glass ceramics, commonly known as Macor ceramics, are a multifunctional material that combines the features of glass and ceramics. They are are polycrystalline composites with exceptional machinability that can be processed into elaborate geometries, intricate patterns, and precise dimensions... (read more)

Ceramic components are manufactured from high-performance ceramics, fine ceramics and high-tech ceramics. Alumina, zirconia, silicon nitride, aluminum nitride, and silicon carbide are frequently used ceramic materials. They possess superior toughness, hardness, electrical insulation, good heat resistance, wear resistance, and oxidation resistance. (read more)

The amazing molecule boron nitride mostly comprises nitrogen and boron atoms with the chemical formula BN. It shows itself in many crystal forms with different qualities. Like graphite in structure, the hexagonal Boron Nitride (H-BN) is not only the softest polymorph but also finds use as a lubricant and cosmetic addition because of its smooth texture. (read more)

There are numerous types of ceramics, but three stand out as substrate materials in particular. These are alumina (Al2O3), aluminum nitride (AlN), and silicon nitride (Si3N4). They offer high thermal conductivity, good electrical insulation, and high-temperature resistance. (read more)

Aluminum nitride (AlN) ceramics offer exceptional thermal conductivity, electrical insulation, and mechanical strength. Ideal for heat-dissipating substrates, electronic packaging, and high-power applications in electronics. (read more)

Our Ceramic Wafer Chuck ensures stable, precise wafer handling in semiconductor processes. Made from high-performance materials like alumina, silicon carbide, and silicon nitride, it offers thermal stability, chemical resistance, and high mechanical strength. (read more)

Boron Nitride powder is a white and lubricant powder. By means of hot pressing at high temperature and pressure, Boron Nitride ceramics are produced into a block as big as 480*480mm. BN ceramic is a machinable ceramic that can be easily cut into plates, rods or machined into complex shapes. (read more)