4.Low Thermal Expansion: Its low thermal expansion coefficient helps maintain dimensional stability under temperature fluctuations.
1. Enhanced Melting Efficiency: SiC can be added to steel melts to improve the melting process, reducing energy consumption and time.
2. Refining Agent: It serves as a deoxidizer and can improve the quality of steel by reducing impurities.
3. Improved Casting: SiC improves the fluidity of molten steel, leading to better casting outcomes and reducing defects.
4. Wear Resistance: Its hardness makes SiC ideal for lining furnaces and other equipment, extending their lifespan and reducing maintenance costs.
5. Energy Savings: Utilizing SiC in processes can lead to significant energy savings, contributing to more sustainable steel production.
Packing and shipping:
Silicon carbide (SiC) is increasingly utilized in the steelmaking metallurgical industry due to its beneficial properties that enhance processes such as melting, refining, and casting. Its unique characteristics contribute to improved efficiency, quality, and performance in steel production.