Abstract
Electric discharge machining (EDM) of tool steel (D2 grade) has been performed using different tool designs to produce through-holes. Machining performance has been gauged with reference to machining time, hole taper angle, overcut, and surface roughness. Inaccuracies and slow machining rate are considered as the most common limitations of the electric discharge machining (die-sinking). Traditionally, a cylindrical tool is used to form circular holes through EDM. In this study, the hole formation is carried out by changing the tool design which is the novelty of the research. Two-stage experimentation was performed. The newly designed tools substantially outperformed a traditional cylindrical tool, especially in terms of machining time. The main reason for the better machining results of modified tools is the sparking area that differs from the traditional sparking. Comparing against the performance of a traditional cylindrical tool, the newly designed tools offer a considerable reduction in the machining time, radial overcut, and roughness of the inside surfaces of machined holes, amounting to be approximately 50%, 30.6%, and 38.7%, respectively. The drop in the machining time along with a condensed level of radial overcut and surface roughness can shrink the EDM limitations and make the process relatively faster with low machining inaccuracies.
Highlights
Tool steels are high carbon and chromium content alloys used in a variety of industrial applications.D2 steel is one of the materials widely used in mold and die making industry
Electric discharge machining (EDM) die-sinking of D2 steel has been performed using several tool designs
The time taken to complete the through-hole in D2 steel varies from 11.2 to 22.2 min, and hole taper angle varies from 2.3◦ to 13.8◦
Summary
Tool steels are high carbon and chromium content alloys used in a variety of industrial applications.D2 steel is one of the materials widely used in mold and die making industry. Die blocks of die-casting, drawing dies, and different cutting tools are typical examples where D2 steel is used [1]. Such applications need to have various features to be produced through machining [2]. The material removal mechanism of EDM is very complex and debatable due to the involvement of multiple factors. It is stated by the fundamental theories that the material removal is governed by the electrical conduction between both the electrodes.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
