• Products
• Electronics
• Ceramics
• DPF
• Automotive Exhaust System Components
• Graphite Specialty
• Fine Ceramics
• Ceramic Fiber

• Contact Us

Silicon Carbide (SiC)

IBICERAM is silicon carbide ceramics made of β type crystals with dense and uniform structure.

Features It retains high strength from room temperature to above 1600°C. It has good thermal conductivity and high thermal shock resistance due to a low thermal expansion.

Dense SiC

Silicon Carbide (SiC) ceramics near to theoretical density is produced by pressure-less sintering method. It has good mechanical strength for temperatures ranging from room temperature up to 1400°C high heat as well as chemical stability, such as excellent resistance to oxidation and chemicals. With higher hardness, rigidity and thermal conductivity compared to other ceramics, this product is an ideal base material for high precision processing.

Porous SiC

With a relative density of around 2g/cc, this lightweight and machinable silicon carbide offers a wide range of properties, such as complicated shapes or optimized density, porosity and mechanical strength. Moreover, by filling pores with foreign substances, it is possible to produce complex materials with a wide range of properties to be added to the base of the silicon carbide. Contact us for details.

High-purity porous SiC

In addition to all the features of the porous SiC, this product offers a higher purity by limiting metallic impurities to below 10 ppm. A CVD coating can produce gas closure at 1100°C or higher and achieve ultra-high-purity. Because it has better chemical stability than quartz, this material offers excellent resistance to corrosion by cleaners and other harsh chemicals as well as deformation.

High-purity Silicon impregnated SiC

This dense silicon carbide, composed of high-purity porous material and metallic silicon, offers properties such as low depletion and better stability of plasma. It also features low particle production

High-purity reaction sintered SiC

This dense silicon carbide, composed of high-purity porous material and metallic silicon, offers relatively high thermal conductivity. This material helps achieve better thermal distribution when used for the furnace core or susceptor. Because it has better chemical stability than quartz, it offers excellent resistance to corrosion by cleaners and other harsh chemicals as well as deformation.

AlN

AIN (aluminum nitride) is an excellent ceramic material possessing very high thermal transfer and electrical insulation properties. It is stable against highly corrosive halogen gases, making it an ideal material for use in the various areas of semiconductor production.

Alumina

High-purity alumina

For an application which is averse to metallic impurities, we recommend our high-strength alumina, containing 99.8% or more Al₂O₃, at a density of 3.95 g/cm³ or greater.

General-use alumina

Excellent electrical insulation property and strength. Available at a relatively low price.