Silicon carbide (SiC), a high-performance material known as the "golden sand", is demonstrating great potential in the field of advanced ceramics due to its excellent hardness and strength. It is widely used in key areas such as high-performance ceramic armor and precision cutting tools, and has become one of the core materials driving the upgrading of advanced manufacturing and special protection technologies.
Although this material exists in the form of rare mineral moissanite in nature, it is mainly produced through high-temperature smelting in resistance furnaces using raw materials such as quartz sand, petroleum coke (or coal coke), sawdust, etc. (the production of green silicon carbide requires the addition of salt). In contemporary high-tech refractory materials such as carbon, nitrogen, and boron, silicon carbide occupies an irreplaceable position due to its excellent comprehensive performance, wide application, and high economy, and is often referred to as refractory sand.
To meet the needs of different industrial chains, from basic refractory materials to cutting-edge ceramic products, relevant production enterprises have established mature product systems. The product has high purity, covering multiple grades such as 97%, 95%, 88% -90%, 80% -85%, 70% -75%, etc; The standard particle size specifications are complete, mainly including 0-3 millimeters, 0-5 millimeters, 0-8 millimeters, 0-10 millimeters, and 1-3 millimeters, 1-5 millimeters, 1-8 millimeters, 1-10 millimeters, and other ranges. The enterprise also emphasizes that it can provide flexible customized product solutions based on customers' special performance and specification requirements in research and development or production.
With the continuous improvement of material performance requirements in the global manufacturing industry, silicon carbide is expected to play a key role in a wider range of industrial and technological fields due to its unique physical and chemical properties, and its market demand and technological iteration prospects are highly anticipated.
Although this material exists in the form of rare mineral moissanite in nature, it is mainly produced through high-temperature smelting in resistance furnaces using raw materials such as quartz sand, petroleum coke (or coal coke), sawdust, etc. (the production of green silicon carbide requires the addition of salt). In contemporary high-tech refractory materials such as carbon, nitrogen, and boron, silicon carbide occupies an irreplaceable position due to its excellent comprehensive performance, wide application, and high economy, and is often referred to as refractory sand.
To meet the needs of different industrial chains, from basic refractory materials to cutting-edge ceramic products, relevant production enterprises have established mature product systems. The product has high purity, covering multiple grades such as 97%, 95%, 88% -90%, 80% -85%, 70% -75%, etc; The standard particle size specifications are complete, mainly including 0-3 millimeters, 0-5 millimeters, 0-8 millimeters, 0-10 millimeters, and 1-3 millimeters, 1-5 millimeters, 1-8 millimeters, 1-10 millimeters, and other ranges. The enterprise also emphasizes that it can provide flexible customized product solutions based on customers' special performance and specification requirements in research and development or production.
With the continuous improvement of material performance requirements in the global manufacturing industry, silicon carbide is expected to play a key role in a wider range of industrial and technological fields due to its unique physical and chemical properties, and its market demand and technological iteration prospects are highly anticipated.