WEAR SLEEVES BARRELS
Silicon carbide (SiC) exhibits exceptional wear/corrosion resistance, high hardness, thermal stability (130W/m·K conductivity at 20°C), and strength, effectively managing equipment temperature. SiC wear sleeves manufactured via isostatic pressing achieve 5-10x longer lifespan than standard materials. With maximum dimensions of 650mm diameter and 1000mm height, these components serve as corrosion-resistant liners in sand mills, cyclones, and demanding applications across inkjet printing, lithium batteries, chemical processing, mining, and pharmaceuticals. Their dense structure isolates equipment cavities from erosive media, ensuring operational reliability in extreme conditions.
Silicon carbide have the advantages of excellent wear resistance, corrosion resistance, high hardness, high temperature resistance, high strength, and good thermal conductivity and so on. With thermal conductivity at 130W/M·K (20℃), silicon carbide has ideal heat dissipation effect, which is conducive to the control of temperature rise during the operation of the equipment.
The silicon carbide wear sleeve adopts isostatic pressing molding technology and has high density and long service life, which is 5-10 times that of general wear-resistant materials. It is usually used as the lining of casing with high requirements for wear and corrosion resistance, which can effectively isolate the inner cavity from the outer shell so that it will not be eroded and corroded by materials and media. It is reliably used in the fields of inkjet, lithium battery materials, electronic slurry, papermaking, chemical industry, medicine and mining machinery and more. The silicon carbide sleeves for sand mills and elbows and kits for Cyclone can currently be made with a diameter up to 650mm and a height up to 1000mm.