Volume 16, No 2, 2019
Monitoring The Flank Wear During Turning Of E0300 Alloy Steel Using Various Inserts
Dr. Sandeep M. Salodkar
Abstract
A series of systematic experimental investigations were conducted to explore the significant parameters and optimize the parametric conditions for turning E0300 alloy steel using CNMG 120404EM6630, CNMG 120408EM6630, CCMT09T308PM4225, and DNMX150608WM1525 inserts under dry conditions. The Taguchi method, renowned for its effectiveness in experimental design, was employed in this study to optimize the cutting parameters for efficient turning of E0300 alloy steel using various inserts. An orthogonal L 27(313) array was utilized for a 33 factorial design, and analysis of variance (ANOVA) was applied to assess the impact of cutting speed, feed rate, and depth of cut on cutting tool wear. By considering the significant cutting parameters and employing multiple linear regression, mathematical models were developed to explore the influence of cutting parameters on tool wear during the turning process of E0300 alloy steel.
Pages: 471-489
Keywords: ANOVA, E0300 alloy steel, Taguchi method.