Description
Silicon Carbide (SiC): High Hardness and Durability for Extreme Industrial Applications
Silicon carbide (SiC) is a ceramic material renowned for its high hardness, high-temperature resistance, and wear resistance. These characteristics make SiC an ideal material for use in automotive industry, electronics, energy sector, abrasive machines, and cutting tools. Silicon carbide can withstand temperatures up to 1600°C and provides outstanding performance in harsh industrial environments.
Features of Silicon Carbide:
High Hardness: SiC offers a hardness range of 9-9.5 on the Mohs scale, making it ideal for use in cutting tools, abrasive machines, and high-temperature applications.
High-Temperature Resistance: Silicon carbide can withstand temperatures up to 1600°C, making it suitable for use in gas turbines, furnaces, and high-temperature industrial applications.
Wear Resistance: SiC exhibits excellent resistance to abrasive environments, making it perfect for use in mining and chemical processing industries.
Electrical and Thermal Conductivity: Silicon carbide offers high electrical conductivity and thermal conductivity, making it ideal for use in electronic devices and energy systems.
Chemical Resistance: Silicon carbide is highly resistant to a variety of acidic and alkaline solutions, making it a great choice for use in chemical processing and petrochemical industries.
Applications:
High-temperature applications (furnaces, gas turbines)
Automotive industry (engine parts, brake discs)
Electronics and energy sector (electrical components, energy systems)
Abrasive machines (cutting tools, milling cutters)
Mining and quarrying equipment
Chemical processing and petrochemical industries
Why Choose Silicon Carbide? Silicon carbide offers excellent hardness, high-temperature resistance, wear resistance, and chemical resistance, making it the ideal material for automotive, electronics, energy sector, and chemical processing industries. It ensures long-lasting and efficient performance in demanding industrial environments.
| Type | % SiC | Size | Treatment | Industrial use |
| Black silicon carbide | ||||
|---|---|---|---|---|
| C-O | 98.2 | Macro F 10-220 | Air washed | Abrasive grinding wheels and crown wheels Polishing of terrazzo and marble |
| C-6 | 98.0 | Macro F 10-220 Micro F 240-1500 | H2O H2SO4 HF NaOH | Polishing of marble and granite Resin and magnesium oxide bonded abrasives Hard metals |
| C-6 P | 98.6 | Macro P 16-220 Micro P 240-2500 | H2O H2SO4 HF NaOH | Coated abrasives Sandpaper |
| C-6 P AD | 98.8 | Macro P AD 16-220 | H2O H2SO4 HF NaOH | High density silicon carbide Lapping and polishing |
| Green silicon carbide | ||||
| C-5 | 99.1 | Macro 10-220 Micro 240-2500 | H2O H2SO4 HF NaOH | Sharpening of tungsten steel parts Polishing of steel and glass balls |
| Silicon carbide for granite cut | ||||
| C-6 | 98.2 | 70-80 40-90 40-60 | H2O | Cutting of granite and marble blocks |
| Silicon carbide for anti-slipping floors | ||||
| C-6 | 98.5 | C-6 10-24 | H2O H2SO4 HF NaOH | Resin floors |
| C-O | 98.1 | C-O 10-24 | Air washed | Concrete floors |
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