Silicon Carbide Plate Designed For Heavy Duty Industrial Applications

Silicon Carbide Plate Designed for Heavy Industrial Applications

Refractory SIC plates possess excellent high-temperature stability, working reliably over an extended period of time in environments of elevated temperatures. Furthermore, these refractory products possess strong wear resistance and corrosion resistance properties.

These plates are widely utilized as cut-off wheels, grinding wheels and refractory materials. Additionally, they may also serve as semiconductor substrates and heat exchanger components.

Heat Resistance

Silicon carbide plates have the capacity to withstand high temperatures without suffering damage, making them suitable for numerous industrial processes. Plus, being non-toxic and inert materials they make a good choice in environments where chemical agents could damage other materials more readily.

Nitride-bonded silicon carbide offers superior strength and toughness, making it a reliable material choice for armor and ballistic protection. Able to withstand heavy loads and impacts with its Mohs hardness near diamond, it also resists wear from abrasives without wearing away or becoming damaged easily.

Ceramic components made of silicon carbide plate can be assembled into block heat exchangers that efficiently transfer fluids at different temperature levels, providing for high temperature control, improving efficiency, minimizing power loss and increasing controllability. Such heat exchangers are perfect for environments characterized by strong radiation or vacuum conditions – an attractive feature in aerospace applications or high performance use cases.

Wear Resistance

Silicon carbide (SiC) is the lightest, strongest, and hardest ceramic material with an excellent Mohs hardness rating of 9.5 – perfect for combatting corrosion and abrasion while remaining extremely strong and durable.

As this material is highly resistant to acids, lyes, and oxidizing agents – making it suitable for use in harsh chemical environments – it makes an ideal choice.

Silicone carbide plates are widely utilized within metallurgy and power industries for wear protection of nozzles, mills, expanders and extruders. Furthermore, this material has become popular within aerospace for components like gas turbines, rocket nozzles and engine parts.

Vickers and Rockwell hardness testing, tensile testing and impact strength are used to validate the strength of plates. Fracture toughness and Young’s modulus tests also demonstrate their dimensional stability – essential when working in environments characterized by changing temperature conditions or vibration. Our plates can be produced using hot pressing, hot isostatic pressing or reaction-bonded sintering processes and come in various thicknesses and shapes that meet specific application needs.

Corrosion Resistance

Silicon Carbide plate offers exceptional corrosion resistance. It can withstand heat of up to 1600degC while still retaining strength, dimensional stability and oxidation-resistance even in harsh environments. Furthermore, it features low thermal expansion coefficient and provides exceptional chemical, abrasion and corrosion resistance properties.

Kerui Refractory offers sintered and reaction-sintered silicon carbide ceramic plates of various grades to meet various applications including spray nozzles, blast nozzles, kiln furniture and cyclone components.

Refractory ceramic silicon carbide plate can be utilized for industrial uses ranging from semiconductor manufacturing, engine components and aerospace applications to high temperature particulate control ceramic filtration systems. Furthermore, its wear-resistant surface makes this an excellent material to provide automotive, industrial and other machinery parts with protection from wear-and-tear damage; furthermore it boasts a hardness of 9.5 on Mohs scale as well as superior thermal conductivity properties.

Chemical Resistance

Silicon carbide plates are non-toxic and possess strong corrosion resistance, making them suitable for chemical production, energy technology, paper manufacturing and ceramic filtration components. Furthermore, these non-corrodible materials offer resistance against thermal shock and oxidation; making them suitable for applications requiring high erosion and abrasive resistance.

Silicon Carbide Plates come in various materials and shapes to meet your specific requirements, including sintered, reaction bonded and recrystallized forms of silicon carbide. Sintered SiC is produced by grinding powders into a non-oxide sintering aid mixture, compacted under pressure before being sintered at high temperatures to form its final part.

Reaction bonded silicon carbide (RBSC) is an refractory material formed by milling pressed and unfired green bodies, typically used as furniture support material and resistant to harsh environments like corrosion and abrasion. Furthermore, this type of refractory is utilized extensively in ceramic sintering kilns to ensure consistent temperatures and efficient heat transfer.