Experimental Investigation of Effect of Process Parameters on Material Removal Rate during WEDM

Abstract

For any machining process and, particularly, in process related to Wire Electrical Discharge Machining (WEDM) the
right selection of machining conditions is one of the most important aspects to be taken into consideration. WEDM is
capable of machining of geometrically complex shapes or material components having higher hardness, that are
precise and very difficult-to-machine such as composites, super alloys heat treated tool steels, ceramics, heat resistant
steels, carbides etc. These hard material components are widely used in aerospace industries, die and mold making
industries, aeronautics and nuclear industries. This investigation discusses the effects of machining parameters like
pulse on time, pulse off time and voltage on the material removal rate of wire electric discharge machining. For this
investigation, stainless steel (SS 304) has been used as a work piece and a brass wire and a diffused wire having 0.25
mm diameter is used as tool electrodes. The design of experiment is based on Taguchi Design approach L9 orthogonal
array. Further, the analysis of variance (ANOVA) is used to analyze the results obtained from Taguchi design
approach. The analysis of results indicates that diffused wire gives more material removal rate (MRR) as compare to
the brass wire. The results show that, the pulse on time and servo voltage has the highest influence on material
removal rate (MRR). As the pulse on time increases, the material removal rate increases. It is also concludes that, with
the increase of pulse off time and servo voltage, the material removal rate decreases.