ABSTRACT
Micro wire electric discharge machining (µ-WEDM) has received immense attention due to the tight tolerance requirements of biomedical components and downsizing of sensors. The investigation reports the impact of wire material in machining Inconel 625 superalloy. The quality of machined surface is studied in terms of surface roughness (SR) and erosion rate (ER) by varying the µ-WEDM variables like servo voltage (SV), pulse start time (Tstart), angle of cut (AC), pulse stop time (Tstop) and current (IC). Two different wire electrodes of diameter 150 µm (brass and zinc-coated brass) are used in the study. Machining trials are executed by using central composite design (CCD). Further modeling of responses is carried out using Response Surface Methodology (RSM) and Desirability Analysis (DA) to predict the optimal machining parameters. The zinc-coated brass wire (Wzb) outperforms the plain brass wire (Wb) in terms of machining rate. Servo voltage is identified as a crucial and noteworthy parameter affecting the responses. The SR is decreased by 28.13% at the highest value of SV (70 V), while the ER rose by 41.36% at the minimal value of SV (50 V). The topography of machined surfaces is analyzed using SEM and 3D surface roughness images.
Disclosure statement
No potential conflict of interest was reported by the author(s).
Correction Statement
This article has been corrected with minor changes. These changes do not impact the academic content of the article.