Abstract
Single point cutting tool has been developed by using the centrifugal casting method. The performance of the cutting tool has been evaluated by employing Grey-Taguchi multi-objective optimization technique for a better-optimized result during the finish turning of MS workpiece. Cutting velocity, feed, and depth of cut were taken as the cutting parameters. Based on the optimization technique, optimum cutting parameters were found out for both wear at flank surface and surface roughness minimization. ANOVA analysis suggested feed with maximum contribution of 40.57% for minimizing surface roughness. Similarly, cutting velocity was found to have maximum contribution of 87.67% for minimizing flank wear. Also, cutting velocity was observed as the important process parameter which affected both the responses.
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