Phone: 0086 1730 4211 101
Tel: 0086 0421 5833 238
Fax: 0086 0421 5833 694
With the development of the Stainless Steel Casting mec […]
With the development of the Stainless Steel Casting mechanical machining industry, more and more parts are produced by cold work dies in production, and more and more types of cold deformation dies are used. Cold volume die such as stretching, blanking, trimming, punching material rolling . Although there are many types of cold deformation molds, different working conditions and different performance requirements, the basic working conditions are similar: that is, the metal is deformed in the cold state, and it is subjected to large shear, pressure, bending force, Impact and friction.
High hardness and high strength to ensure that it is not easy to produce a small amount of plastic deformation or damage when subjected to high stress.High abrasion resistance, which can ensure the dimensional accuracy of the mold under high abrasion conditions, which is even more important for tensile dies and cold stamping dies.Sufficient toughness, so that it is not prone to peeling or collapsing when working under impact load and dynamic load.
The heat treatment deformation should be small. Because most molds have complicated cavities and precise precision, the heat treatment deformation is difficult to eliminate by grinding. In addition, some cold deformation molds should have sufficient heat resistance. How to choose the material of cold deformation mold and proper heat treatment method to improve the service life of the mold is the most concerned issue in production. The normal failure of cold deformation mold should be wear, slight plastic deformation and fatigue failure.
However, in actual production, in addition to wear and tear failures, and early failures such as collapse, fracture, cracking, etc., are common. As we all know, the service life of cold-deformed molds is a comprehensive factor; the rationality of raw material selection, the metallurgical quality of raw materials, the rationality of design and manufacturing processes, the use conditions, and the technical level of operators.The working conditions of the mold, including the type of equipment, machining frequency, material being processed.