Reaction Sintered Silicon Carbide (RSiC) Ceramic Plate – High Strength, Wear Resistance, Thermal Stability

Reaction Sintered Silicon Carbide Plate [MM-XG-SiC95]

Product Features

Introducing our high-performance Reaction Bonded Silicon Carbide (RBSiC) shelves, specifically designed for high-temperature industrial applications:

• Exceptional High-Temperature Resistance: Engineered to withstand temperatures below 1400°C while maintaining structural integrity, making them ideal for high-temperature processes like kilns and furnaces.
• Thermal Shock Resistance: Provides excellent resistance to rapid temperature changes, ensuring durability in demanding industrial environments that experience frequent heating and cooling cycles.
• Durability and Wear Resistance: With a hardness of 2400 Kg/mm² and high structural strength, these shelves offer a long service life, even under tough and abrasive conditions, ensuring cost-effective and reliable performance.

Applications

Reaction Bonded Silicon Carbide shelves are ideal for:

• Kiln Furniture: Widely used in high-temperature kilns for industries such as ceramics and glass manufacturing.
• Industrial Heat Treatment: Suitable for applications requiring strong, durable support materials in high-temperature environments.
• Metallurgy: Perfect for use in metal processing industries where wear and heat resistance are critical.

Technical Highlights

• High Flexural Strength: Boasting a high-temperature flexural strength of 290 MPa at 1200°C, these shelves provide excellent mechanical stability, making them ideal for supporting heavy loads in high-temperature environments.
• Efficient Thermal Conductivity: At 1200°C, the shelves have a thermal conductivity of 45 W/m•K, ensuring effective heat management and uniform temperature distribution across the surface.
• Low Thermal Expansion: The thermal expansion rate is controlled at 4.5 x 10 at 1000°C, ensuring dimensional stability, minimizing risks of warping or cracking during thermal cycling.

Technical Parameters