Process optimization in micro electrical discharge machining of carbon kevlar hybrid composite using TOPSIS
Hrishikesh Dutta, Kishore Debnath, Sargunan Karunanithi, Ashwin Anantharamakrishnan Vimala, Dhinakaran Veeman, Mridusmita Roy Choudhury

TL;DR
This study optimizes the micro-electrical discharge machining of a carbon-Kevlar composite using the TOPSIS method to improve machining efficiency and precision.
Contribution
A novel application of TOPSIS for multi-response optimization in µEDM of carbon-Kevlar hybrid composites.
Findings
Voltage significantly affects machining time, while tool speed mainly influences the degree of circularity.
TOPSIS optimization improved the preferred solution by 0.757881 for optimal machining settings.
SEM images confirmed overcut in the machined micro-holes.
Abstract
This work is an experimental investigation and multi-response optimization of micro-electrical discharge machining (µEDM) of carbon-Kevlar hybrid composite (CKHC). Based on the chosen input factors namely voltage (V), EDM feed (EF) and tool speed (TS), the experimental runs were fixed as per Taguchi’s L9 orthogonal array. Single and multi-response optimization were carried out using Taguchi and technique for order of preference by similarity to ideal solution (TOPSIS). The responses selected for the study were machining time (MT) and degree of circularity (DOC). The Taguchi analysis identified the optimal input parameter values for minimal MT as a V of 180 volts, EF of 2 μm/sec, and TS of 1000 rpm. The corresponding values for the maximum DOC were 120 volts, 2 μm/sec, and 1000 rpm. Analysis of variance (ANOVA) revealed that voltage significantly affects the variation in MT. However, the…
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Taxonomy
TopicsAdvanced Machining and Optimization Techniques · Advanced machining processes and optimization · Erosion and Abrasive Machining
