Titanium carbide hard rods - resistant to acid and alkali corrosion
The length of this round bar can be customized according to specific requirements, ranging from 100mm to 1000mm. It is applicable to secondary processing technologies such as precision grinding and wire cutting, and is capable of producing components with complex geometries. Although its initial cost is higher than that of traditional cemented carbide, a comprehensive assessment of its service life and processing efficiency indicates that components with complex geometries can be produced by using lower unit production techniques such as precision grinding and wire cutting. Although its initial cost is higher than that of conventional cemented carbide, when its service life and processing efficiency are comprehensively evaluated, its unit cost is relatively low. In the gear manufacturing industry, hobs made of this material ensure that the tooth surface accuracy of gears reaches grade 6 or higher, meeting the strict requirements of high-performance mechanical transmission systems. The production cost of titanium carbide-based hard alloy round bars can be customized. In the gear manufacturing industry, hobs made of this material ensure that the tooth surface accuracy of gears reaches grade 6 or higher, meeting the strict requirements of high-performance mechanical transmission systems. By adjusting the content of titanium carbide (generally between 70% and 90%) and the proportion of the binder, titanium carbide hard alloy round rods with different mechanical properties can be customized. A higher titanium carbide content enhances wear resistance, making it suitable for rough machining applications, while the increased binder exhibits different mechanical properties by adjusting the titanium carbide content (typically between 70% and 90%) and the proportion of the binder. The higher titanium carbide content enhances wear resistance, making it suitable for rough machining applications, while the increased proportion of binder improves toughness, making it an ideal choice for precision machining operations. Its density is only 6.5g /cm³, which is about 20% lighter than tungsten carbide rods of the same size. This makes it particularly suitable for increasing the proportion of toughness, making it an ideal choice for precision machining. Its density is only 6.5g /cm³, which is about 20% lower than that of the same tungsten carbide rod, making it highly suitable for manufacturing lightweight cutting tools. In the 3C electronics industry, it is widely used in the processing of precision components such as smart frames and laptop casings, ensuring that the surface is free of scratches and the dimensional deviation is minimal.
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