Optimization of Process Parameters for MRR and Machining Time in Turning Process: A Review

Authors

  • Mr.Swapnil Lambe Department of Mechanical Engineering, Adarsh Institute of Technology and Research Centre, Vita, India
  • Mr.Dnyaneshwar Vaidhya Department of Mechanical Engineering, Adarsh Institute of Technology and Research Centre, Vita, India
  • Mr.Sagar Bhosale Department of Mechanical Engineering, Adarsh Institute of Technology and Research Centre, Vita, India
  • Mr.Prashant Galatage Department of Mechanical Engineering, Adarsh Institute of Technology and Research Centre, Vita, India
  • Mr. Hariprasad Chavan Department of Mechanical Engineering, Adarsh Institute of Technology and Research Centre, Vita, India

Keywords:

Optimization process, CNC Machine, MRR, Taguchi Method, ANNOVA

Abstract

The challenge of new industry of modern machine industries is mainly focus on achieving high quality, component accuracy, surface finish, high production rate and increase the product life with lesser environmental. Similarly work
piece material which plays an important role in metal cutting parameter. In this study, focuses on the optimization of turning
parameters using the Taguchi technique to obtain minimum machining time and maximum material removal rate. A number
of turning experiments will conduct using the orthogonal array on computerized numerical control. The ex-periments is performing on mild steel bar using high speed steel tool under dry cutting conditions. The measured results are collects and
analyze with the help of the commercial software. Analysis of variance is employed to determine the most significant control
factors affecting the machining time and material removal rate. The spindle speed, feed rate and depth of cut are selected as
control factors.

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Published

2016-10-25

How to Cite

Mr.Swapnil Lambe, Mr.Dnyaneshwar Vaidhya, Mr.Sagar Bhosale, Mr.Prashant Galatage, & Mr. Hariprasad Chavan. (2016). Optimization of Process Parameters for MRR and Machining Time in Turning Process: A Review. International Journal of Advance Engineering and Research Development (IJAERD), 3(10), 83–87. Retrieved from https://ijaerd.org/index.php/IJAERD/article/view/1721

Issue

Vol. 3 No. 10 (2016): Volume 3 Issue 10 October -2016

Section

Articles