Feb 19,2024
How to choose the manufacturing materials of cutting pliers
Cutting Pliers is a hand tool widely used in electronics, machinery, electrical and other fields. Its performance and reliability are directly related to the quality of engineering and maintenance. Among them, the selection of manufacturing materials is one of the important factors that determine the quality of Cutting Pliers.
Advantages of alloy steel:
The main body of Cutting Pliers is usually made of alloy steel. Alloy steel has excellent hardness and wear resistance, which allows the blade to remain sharp and not easily deformed or worn when shearing materials of various hardnesses and thicknesses. The high strength of alloy steel also ensures that Cutting Pliers are not prone to deformation during use, ensuring the long-term stability of the tool.
Applications of cobalt alloys:
Some high-end models of Cutting Pliers may use cobalt alloy as the blade material. Cobalt alloy has higher hardness and wear resistance than ordinary alloy steel, and is especially suitable for high load and high-speed shear scenarios. This makes Cutting Pliers perform even better when faced with special materials or work that requires higher cutting efficiency.
Wear resistance of tungsten steel coating:
In order to improve the wear resistance of the knife edge, some Cutting Pliers use tungsten steel coating on the surface of the knife edge. Tungsten steel coating has extremely strong hardness and can effectively resist wear and extend the service life of the knife edge. This is important in situations where you often need to cut harder materials or perform high-frequency use.
Surface treatment technology:
In addition to selecting the appropriate base material, surface treatment technology is also a key factor affecting the performance of Cutting Pliers. Some manufacturers use advanced heat treatment processes, such as quenching, to increase the hardness of the knife edge. This treatment can increase the adaptability of the knife edge to hard materials and slow down the wear rate of the knife edge.