Carbide
Industrial Environment Resilient
Customized High-Performance Materials
Cemented Carbide boasts exceptional strength and elasticity, with minimal degradation at elevated temperatures. Its superior wear resistance makes it ideal for use in metalworking tools and molds. Our expert team can tailor to your specific requirements, including blanks in customized sizes of ground rods, blocks, button dies, draw dies and punches or turnkey complete components made according to print.
Customized High-Performance Materials
Cemented Carbide boasts exceptional strength and elasticity, with minimal degradation at elevated temperatures. Its superior wear resistance makes it ideal for use in metalworking tools and molds. Our expert team can tailor to your specific requirements, including blanks in customized sizes of ground rods, blocks, button dies, draw dies and punches or turnkey complete components made according to print.
Applications In Harsh Industrial Environments
Cemented Carbide is a technologically advanced composite material composed of a metallic binder and hard carbide particles. The carbide’s precise ratio, typically between 70-97% by weight, is blended with a binder metal, typically cobalt or nickel. The mixture is then subjected to high-pressure compaction and sintering, resulting in a metallurgical bond between the carbide particles and the binder metal.
Applications In Harsh Industrial Environments
Cemented Carbide is a technologically advanced composite material composed of a metallic binder and hard carbide particles. The carbide’s precise ratio, typically between 70-97% by weight, is blended with a binder metal, typically cobalt or nickel. The mixture is then subjected to high-pressure compaction and sintering, resulting in a metallurgical bond between the carbide particles and the binder metal.
Modification To Suit Requirements
The properties of Cemented Carbide are influenced by various factors such as grain size, binder-to-carbide ratio, and the inclusion of other elements. Grain size plays a crucial role in determining the hardness of the material. As grain size decreases, the hardness of the material increases. The proportion of binder content also affects the material’s resistance to deformation and wear. A higher binder content results in a tougher yet more wear-prone material.
Modification To Suit Requirements
The properties of Cemented Carbide are influenced by various factors such as grain size, binder-to-carbide ratio, and the inclusion of other elements. Grain size plays a crucial role in determining the hardness of the material. As grain size decreases, the hardness of the material increases. The proportion of binder content also affects the material’s resistance to deformation and wear. A higher binder content results in a tougher yet more wear-prone material.
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