Optimizing the Process Parameters for controlling the Vibration in Turning of TWIP Steel Rod
Abstract
Abstract: Turning process embodies the separation of the metal atop exterior surface of a pirouette work piece in cylindrical shape. It is one among the most commonly used technique of cutting largely when finishing of the product. The pennant of turning variables for instance, speed of cutting, rate of feed and cut of depth, in the turning process need to be designated cautiously to ameliorate the turning potency by amplifying the productivity and minimizing the total cost of manufacturing for each integrant. A high vibration ushers to penurious surface finish and reduces the productivity followed by shortening of tool life, in order to avoid that the vibration of the cutting tool must be controlled. In this experimental work, an investigation is made to understand the reverberations of these turning parameters in the voyage of a work piece, made up of twinning induced plasticity (TWIP) steel, by using response surface methodology. Statistical tools are used for designing of the experiments. Then the process parameters were optimized by maneuver of analysis of variance, regression analysis and techniques of optimization to accomplish the context of minimum tool vibration and low chip frequency, consequently ameliorating the surface roughness in the wake of turning process.
Index Terms: Optimizing, Process parameters, Vibration, Turning, TWIP steel.
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.