What Is Relationship Between Creep Resistance of Cemented Carbide And High Temperature Phenomena?

The creep resistance of cemented carbide is related to high temperature phenomena.

Creep resistance refers to the ability of a material to resist deformation and flow at high temperatures. In a high-temperature environment, the atomic spacing of the material increases, which weakens the interaction force between atoms, resulting in plastic deformation and flow of the material.

As a material with high hardness and high wear resistance, cemented carbide has poor creep resistance. In high-temperature environments, cemented carbide is prone to creep and deformation, resulting in changes in the size and shape of the material. These changes may adversely affect the accuracy and safety of the device.

In addition, high temperature phenomena will also affect the mechanical properties and service life of cemented carbide. In high temperature environments, the strength and hardness of cemented carbide will be reduced, and the wear resistance and fatigue resistance will also be affected. These changes may shorten the service life of the carbide and affect the reliability and safety of the equipment.

In summary, the creep resistance of cemented carbide is closely related to high temperature phenomena. In high-temperature environments, cemented carbide is prone to creep and deformation, affecting the accuracy and safety of the equipment. Therefore, when using cemented carbide, its creep resistance and high temperature adaptability need to be considered to avoid or reduce the occurrence of safety accidents and quality problems.

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