Green silicon carbide micro powder is a fine powder with a concentrated particle size and no large particles. This article introduces the various applications and characteristics of Green Silicon Carbide micro powder, highlighting its uses in abrasives, refractories, and precision cutting.
Applications of Green Silicon Carbide Micro Powder
1. Refractory Materials: Green silicon carbide micro powder is used in the manufacturing of high-grade refractory materials, suitable for the first layer of linings in high melting point alloy precision casting shells.
2. Bonded and Coated Abrasives: It is used in the production of bonded abrasives and for free abrasive polishing. Applications include making grinding wheels, oilstones, sandpaper, abrasive cloth, and building grinding heads.
3. Cutting and Polishing of Non-Metallic Materials: Green silicon carbide micro powder is suitable for cutting, grinding, and polishing optical glass, ceramics, crystals, electronics, water crystals, silicon, germanium, stone, agate, and high-grade jewelry.
4. Precision Grinding of Metals: It is ideal for grinding materials like cylinder liners, valve seats, cast iron, hard alloys, titanium alloys, and high-speed steel tools.
Characteristics of Green Silicon Carbide Micro Powder
1. Stable Quality: Green silicon carbide micro powder has stable quality, good bonding characteristics, high cleanliness, and no large particles. It has a low content of coarse particles, concentrated particle size distribution, and high grinding efficiency.
2. Compatibility with Cutting Fluids: The micro powder is compatible with cutting fluids like polyethylene glycol. Its surface undergoes special treatment, providing a large specific surface area and clean surface.
3. High Purity and Large Crystals: The raw material used for making green silicon carbide is highly pure, with a uniform and concentrated particle size distribution, ensuring excellent cutting performance and stable physical properties of the micro powder.
4. High Thermal Shock Resistance: It has a high thermal shock stability and load softening temperature, ensuring low thermal expansion during cutting, which enhances cutting stability and adaptability with cutting machines.