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)

Zirconia ceramic wire drawing cones, rings, and guides play a crucial role in the wire and cable manufacturing industry, offering a range of unique properties that enhance the production process and the quality of the final products. (read more)

Hexagonal boron nitride ceramic powder is used in high-temperature lubrication, mold release, electronic heat dissipation, semiconductor substrates, ceramic production, cosmetics, and nuclear industries for its heat resistance, insulation, and lubricity. (read more)

Aluminum nitride ceramics with exceptional thermal conductivity and electrical insulation for high-power electronics and heat-dissipating applications. (read more)

Pyrolytic boron nitride (PBN) products are formed via chemical vapor deposition. They feature high purity, excellent thermal/electrical insulation, and low outgassing. Widely used in semiconductors, optics, and high-temperature applications for their superior chemical stability and dielectric properties. (read more)

Our Zirconia (ZrO₂) ceramics deliver high hardness, wear resistance, and thermal stability, ideal for valves, pump components, cutting tools, and industrial machinery. (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)

Boron Nitride Crucibles offer superior thermal, chemical, and mechanical stability, essential for quantum computing, electronics, and metallurgy applications. (read more)

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)

Silicon nitride ceramic tubes are ideal for aluminum melt temperature measurement. Their high thermal stability, excellent corrosion resistance to molten aluminum, and good mechanical strength ensure accurate and reliable readings, improving the efficiency and quality of aluminum processing. (read more)

Durable ceramic insulator tube for fuses, offering exceptional heat resistance, high electrical insulation, and mechanical reliability across household, industrial, and automotive applications. (read more)

Silicon nitride ceramic substrates, with high strength, thermal conductivity, and insulation, are key for SiC modules in EVs, enabling efficient heat dissipation and high reliability. (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)

High thermal conductivity and excellent insulation aluminum nitride ceramics for semiconductor manufacturing, packaging, and high-performance components. (read more)

Versatile, high-performance alumina ceramics for extreme conditions in electrical and mechanical applications. (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)

Designed for semiconductor manufacturing, this ceramic wafer chuck delivers stable clamping, thermal uniformity, and chemical resistance, supporting high-precision lithography, etching, deposition, and plasma-based processes. (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)

High alumina ceramic tubes for tube furnaces are made from top-grade alumina. They offer remarkable heat resistance, low thermal expansion, and robust mechanical strength. These tubes are ideal for withstanding extreme furnace temperatures. Widely used in industrial heat treating and scientific research, they ensure reliable, long-lasting performance in high-temp applications. (read more)

High-performance ceramic components offering precision, durability, and thermal stability for electronics, machinery, aerospace, and chemical applications. (read more)

Our ceramic tubes, including alumina, zirconia, and silicon nitride materials, offer high-temperature resistance, mechanical strength, and exceptional electrical insulation. Perfect for demanding industrial applications like furnaces, chemical processing, and electronics. (read more)

High-purity alumina ceramics provide exceptional strength, electrical insulation, and thermal resistance, suitable for pumps, electronics, and high-temperature industrial applications. (read more)

Ceramic balls for bearings, valves, and grinding are high-performance components. Made from materials like zirconia or silicon nitride, they offer high hardness, corrosion resistance, and low friction. Ideal for harsh environments, they enhance durability in bearings, ensure tight sealing in valves, and improve grinding efficiency. Lightweight yet strong, they boost mechanical system per... (read more)