A synthetic material called silicon carbide (SiC), which is mainly made of quartz sand and petroleum coke through high-temperature smelting in a resistance furnace, is playing an indispensable role in a wide range of fields from basic processing to cutting-edge industry due to its unique performance combination. Its hardness is between that of corundum and synthetic diamond, and its mechanical strength is superior to corundum. It has a certain degree of brittleness, sharpness, and thermal conductivity, making it a "versatile" in the materials industry.
At the direct application level, the applicability of silicon carbide is extremely wide. It is not only an effective grinding or cutting medium for processing various materials such as cast iron, non-ferrous metals, stone, leather, rubber, etc., but also an excellent refractory material and metallurgical additive for high-temperature industry, providing key high-temperature resistance solutions for smelting, casting and other process flows.
To meet the diverse and complex specific needs of downstream industries, the material supply is being adjusted to continuously improve the level of customization and refinement. Industry enterprises are now able to flexibly provide various specifications of black silicon carbide products based on the differences in processing objects, process conditions, and performance requirements of users. This includes serialized selection of different mesh sizes (particle size), particle size distributions, and grades (purity) to ensure the highest matching material solutions for various scenarios, from ordinary grinding to special refractory, from metal processing to non-metal processing, etc.
At the direct application level, the applicability of silicon carbide is extremely wide. It is not only an effective grinding or cutting medium for processing various materials such as cast iron, non-ferrous metals, stone, leather, rubber, etc., but also an excellent refractory material and metallurgical additive for high-temperature industry, providing key high-temperature resistance solutions for smelting, casting and other process flows.
To meet the diverse and complex specific needs of downstream industries, the material supply is being adjusted to continuously improve the level of customization and refinement. Industry enterprises are now able to flexibly provide various specifications of black silicon carbide products based on the differences in processing objects, process conditions, and performance requirements of users. This includes serialized selection of different mesh sizes (particle size), particle size distributions, and grades (purity) to ensure the highest matching material solutions for various scenarios, from ordinary grinding to special refractory, from metal processing to non-metal processing, etc.