With the continuous development of industrial production, there is an increasing demand for workpieces with complex structures and special process requirements, and traditional processing methods can no longer meet the processing needs. The high-speed steel electrical discharge machining (EDM) process, which stands out for its high energy density, low heat-affected zone, non-contact processing, and easy manufacturing of tool electrodes, has gained increasingly widespread application. In this article, we’ll take a closer look at electrical discharge machining (EDM) for high-speed steel.
Electrical Discharge Machining (EDM) for High-Speed Steel:
Firstly, in terms of high energy density. EDM utilizes electric pulse discharges to penetrate the workpiece surface, forming an electric spark plasma. This intense impact force of the electric spark dissolves, oxidizes, and detaches the material from the workpiece, thereby achieving the purpose of machining. The high energy density characteristic of EDM facilitates the processing of special materials and complex-shaped workpieces that are difficult or impossible to machine with conventional machining methods. This processing method is unaffected by material hardness or heat treatment status, making it suitable for machining highly conductive workpieces with high hardness.
Secondly, in terms of low heat-affected zone. EDM is a common thermal processing method, and the presence of a heat-affected zone on the workpiece surface is a crucial factor affecting the surface quality of EDM. However, due to the extremely short duration of the pulse discharge in EDM, the heat generated conducts and diffuses over a small range, resulting in a minimal heat-affected zone. This low heat-affected zone in high-speed steel not only reduces material deformation and cracking but also does not significantly compromise the strength and corrosion resistance of welded joints.
Furthermore, in terms of non-contact processing. During EDM, the tool electrode and workpiece material do not come into contact, and the macroscopic force between them is minimal. This non-contact processing method minimizes mechanical processing inertia and deformation. Since high-speed steel EDM can complete processing instantaneously, with minimal thermal deformation of the workpiece and small machining spots, it ensures high processing accuracy for high-speed steel workpieces.
Additionally, in terms of tool electrode manufacturing. Since the tool electrode material does not need to be harder than the workpiece material, its manufacturing is relatively easy, reducing tool wear. This is particularly important for the processing of hard materials like high-speed steel. The ease of tool electrode manufacturing simplifies tool production and reduces labor intensity. Moreover, as the tool electrode material can enhance the workpiece structure, its use in high-speed steel EDM can improve the wear resistance and service life of the workpiece.
Conclusion
In conclusion, the unique characteristics of EDM technology, including high energy density, low heat-affected zone, non-contact processing, and easy manufacturing of tool electrodes, significantly advantage its application in the processing of hard materials like high-speed steel. These features of EDM ensure improved application efficiency and processing quality for high-speed steel.
Why Choose Sino Special Metal?
Thank you for reading our article and we hope it can help you to have a better understanding of the electrical discharge machining (EDM) for high-speed steel. If you are looking for suppliers and manufacturers of high-speed steel, we would advise you to visit Sino Special Metal.
As a leading supplier of high-speed steel from Shanghai China, Sino Special Metal offers customers high-quality M2 High-Speed Steel, M35 High-Speed Steel and M42 High-Speed Steel at a very competitive price.