Optimization of Turning Process Parameters Using Multivariate Statistical Method-PCA Coupled with Taguchi Method Ananthakumar P.*, Dr. Ramesh M.**, Parameshwari Department of Mechanical Engineering, SACS MAVMM Engineering College, Madurai-625301 *Email address: ananthresearch@yahoo.co.in
**mramesh.sacs@gmail.com
Online published on 4 November, 2017. Abstract Optimization of machining process parameters to achieve a set of quality attributes is important in bridging up the quality and productivity requirements especially in a turning operation. The quality attributes considered are surface finish, material removal rate and tool flank wear. The Present work applies to optimize the process parameter for turning medium carbon steel bar using HSS tool bit via conventional machining. Optimizing one quality attribute may lead to loss of other quality attribute. Hence in order to simultaneously satisfy all the three quality requirements a multi objective optimization is required. To achieve this exploration of grey relational theory, utility concepts are attempted. To meet the basic assumption of taguchi method that quality attributes should be uncorrelated the study applies PCA based multivariate statistical method and eliminates correlation that exists in between the responses. Experiments have been conducted based on taguchi's L9 Orthogonal array design with different combinations of process control parameters: (Cutting speed, Feed, Depth of cut). Surface roughness, Material removal rate, Tool Flank wear are the response parameters that will be optimized. The obtained result will be verified through confirmatory test. This work highlights the effectiveness of proposed method for solving multi objective optimization of turning process. The above said methodology has been found fruitful in the cases where simultaneous optimization of huge responses is required. Top Keywords Turning Process, Surface roughness, Material removal rate, Tool Flank wear, Taguchi method, Multi variate statistical method. Top |