The cutting knife for glass product manufacturing is a specialized tool installed on glass feeders, designed to cut off the molten glass flowing out of the feeder bowl. Its primary function is to cut the molten glass into uniform gobs for subsequent forming and processing. Glass melt cutting blades typically consist of two parts: the blade body and the blade edge. The blade body provides strength and support, while the blade edge is responsible for cutting. Given the extremely high temperature of molten glass, the blade material is required to have excellent high-temperature resistance and wear resistance to ensure a long service life. Stellite alloy cutting knives feature an extended service life, which effectively reduces the cost and time associated with frequent tool replacement and improves production efficiency. Our company’s Stellite cutting knives are manufactured via the powder metallurgy process, available with non-standard customization, and can be supplied either as blanks or finished products with stable performance.

Product Details The cutting knife (also referred to as the cut-off blade) can be used in the cutting process of viscose staple fibers as well as in the food processing industry and other fields. Stellite alloy features excellent wear resistance and corrosion resistance, and is non-toxic and pollution-free. Our company can supply cutting knives of various dimensions according to customer requirements.

Stellite alloy hot forging dies are core toolings specially designed for high-temperature and high-pressure forging working conditions, and are particularly indispensable in the production of electro-upsetting forming for engine valves. The Stellite 6 alloy forging dies manufactured by our company can withstand high temperatures, intense cyclic thermal stress and mechanical wear, and possess outstanding red hardness and deformation resistance. They ensure the dimensional accuracy of the die cavity is maintained during continuous production, and forge precision forgings with consistent specifications and excellent surface quality.

Stellite alloy stop blocks are a type of extrusion die accessory featuring excellent wear resistance, corrosion resistance, high-temperature resistance and oxidation resistance. Our company adopts the powder metallurgy process to produce Stellite die materials for the hot extrusion of copper and aluminum. The products boast stable quality and high precision, significantly extending the service life of extrusion dies, and thus have become the preferred material for applications in severe and harsh wear-intensive working conditions.

Product Details Stellite alloy extrusion dies are key core components of hot extrusion dies for copper, aluminum and other non-ferrous metals. Copper and aluminum extrusion machines are classified into horizontal and continuous extrusion presses, operating within a temperature range of 450~800ºC. Boasting excellent wear resistance, corrosion resistance, high-temperature resistance, oxidation resistance and superior comprehensive mechanical properties, Stellite alloys are ideally suited for manufacturing copper and aluminum extrusion dies.

Our company adopts the gas atomization process to produce various types of Stellite alloy welding powder. The welding powder is deposited on the surface of wear-resistant components such as high-temperature and high-pressure valves, engine valves, and internal combustion engine intake and exhaust valves via plasma spraying, laser spraying and high-velocity oxy-fuel spraying processes, so as to enhance the wear resistance of the materials.

Stellite alloy welding electrodes are composed of multiple elements such as Co, Cr, W and Mo, and feature excellent wear resistance, high-temperature resistance and corrosion resistance. During the welding process, these electrodes ensure that the welded joints possess outstanding wear resistance and quality stability. The Stellite alloy welding electrodes produced by our company adopt the horizontal continuous casting process, with a diameter range of φ3mm to φ7mm, and their lengths can be customized according to customer requirements.

Product Details The Stellite alloy rods manufactured by our company are produced via processes such as powder metallurgy, casting, cast-forging and rolling. Their specifications can be customized according to requirements, and they are available in either blank or finished-machined forms. These rods are mainly applied in various service conditions involving high temperatures, corrosion and wear, featuring stable quality and reliable performance.

Stellite alloy plates and strips demonstrate excellent comprehensive performance in high-temperature, heavy-wear and corrosive environments by virtue of their unique wear-resistant mechanism, and are widely used in aerospace, nuclear power, petrochemical, papermaking, key equipment and other fields.

The cemented carbide wear-resistant block for the geology and mining field is a block-shaped cemented carbide component designed for high-wear scenarios in geological and mining operations. It boasts extremely high hardness, wear resistance and impact toughness. It can be directly installed on the wear contact surfaces of mining equipment (such as crusher liners, excavator bucket teeth, scraper conveyor guides, etc.), which can significantly reduce equipment wear, improve operating efficiency, and adapt to harsh working conditions such as rock crushing and ore transportation.

The CD Texture Cutter (Diamond Turning Tool) is a precision cutting tool made of high-quality diamond or cemented carbide substrate with diamond coating. It is mainly used to process uniform and high-gloss CD textures (concentric circular textures) on the surface of metal, composite materials and other workpieces. Widely applied in electronic equipment casings, decorative parts, precision mechanical components and other fields, it features high cutting precision, strong wear resistance and excellent processing surface quality.

The cemented carbide gun drill bit for the geology and mining field is the core component of the gun drill tool. It is made of high-strength and high-wear-resistant cemented carbide material. Suitable for deep hole drilling operations in geological and mining exploration, it can perform efficient drilling in hard geological bodies such as rocks and ores. It features high drilling precision, smooth chip removal and long service life, and is compatible with various geological drilling rigs.