Silicon Carbide is available in two forms, reaction bonded and sintered. For more information on these two processes please email us at caroline@rbsic-sisic.com
Both materials are ultra-hard and have a high thermal conductivity. This has led to silicon carbide being used in bearing and rotary seal applications where the increased hardness and conductivity improves seal and bearing performance.
Reaction bonded silicon carbide (RBSC) has good properties at elevated temperatures and can be used in refractory applications.
Silicon carbide materials exhibit good erosion and abrasive resistance, these properties can be utilized in a variety of applications such as spray nozzles, shot blast nozzles and cyclone components.
Key Benefits and Properties of Silicon Carbide Ceramics:
High thermal conductivity
Low thermal expansion coefficient
Outstanding thermal shock resistance
Extreme hardness
Semiconductor
Refractive index greater than a diamond
For more information on Silicon Carbide Ceramics please email us at caroline@rbsic-sisic.com
Silicon Carbide Production
Silicon Carbide is derived from powder or grain, produced from carbon reduction of silica. It is produced as either fine powder or a large bonded mass, which is then crushed. To purify (remove silica) it is washed with hydrofluoric acid.
There are three main ways to fabricate the commercial product. The first method is to mix silicon carbide powder with another material such as glass or metal, this is then treated to allow the second phase to bond.
Another method is to mix the powder with carbon or silicon metal powder, which is then reaction bonded.
Finally silicon carbide powder can be densified and sintered through the addition of boron carbide or other sintering aid to form very hard ceramics. It should be noted that each method is suited to different applications.
For more information on Reaction Bonded Silicon Carbide Ceramics please email us at caroline@rbsic-sisic.com
Post time: Jul-20-2018