Application of Taguchi Approach on Wire Electrical Discharge Machining of SS304 for Automotive Applications

Abstract

<div class="section abstract"><div class="htmlview paragraph">SS304 is a type of stainless steel that is well-known for its high ductility and resistance to corrosion; as a result, it is typically utilized in a variety of applications, such as the exhaust systems of automobiles and the springs that are used in seatbelts. Because of its qualities, it will eventually be employed in a variety of body parts, including fuel tanks and chassis, among other things. Due to its properties, SS304 is known to be incredibly difficult to machine using conventional methods. Through a wire electrical discharge machining process, it is easier to cut complex materials with high surface finishes. In this study, a study was conducted on the WEDM process parameters of SS304 to optimize its machining process. The study was carried out using the DoE approach, which involved planning the various experiments. The parameters of the process, such as the pulse on time, peak current, and off time, were analyzed to determine their performance. The various performance measures included surface roughness, overcut, and removal rate. The results of the study were then analyzed with an interaction plot analysis. The influence of the various process variables on the output measures were then studied through this analysis.</div></div>