Experimental Investigation on the Influence of Machining Parameters using Response Surface Methodology (RSM)

Experimental Investigation on the Influence of Machining Parameters using Response Surface Methodology (RSM)

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
  
© 2018 by IJETT Journal
Volume-61 Number-2
Year of Publication : 2018
Authors : P. Ramya, G. Uma Maheswara Rao, Ch. Maheswara Rao, B.Nagaraju
DOI :  10.14445/22315381/IJETT-V61P217

Citation 

MLA Style: P. Ramya, G. Uma Maheswara Rao, Ch. Maheswara Rao, B.Nagaraju "Experimental Investigation on the Influence of Machining Parameters using Response Surface Methodology (RSM)" International Journal of Engineering Trends and Technology 61.2 (2018): 101-105.

APA Style:P. Ramya, G. Uma Maheswara Rao, Ch. Maheswara Rao, B.Nagaraju, (2018). Experimental Investigation on the Influence of Machining Parameters using Response Surface Methodology (RSM). International Journal of Engineering Trends and Technology, 61(2), 101-105.

Abstract
The present work is to study the influence of turning process parameters on the multiple responses. For the present study medium carbon steel EN8 is considered as the work piece and the process parameters of speed, feed and depth of cut are taken as the controllable parameters at three different levels. Response surface methodology (RSM) along with Analysis of variance (ANOVA) is employed to find the influence of parameters on the various performance characteristics such as surface roughness (Ra), mean cutting force (Fm) and specific cutting forces (Ks). The results concluded that the feed is the most influencing factor for both surface roughness and specific cutting force where as depth of cut is for mean cutting force.

Reference
[1] Ch.Maheswara Rao, S.Srikanth and R.Vara Prasad, “Application of Taguchi Based Grey Relational Grade Method To
[2] Optimize the Multi Responses”, IJMTER, vol.4, issue.7, pp. 121-126, 2017.
[3] G.Karuna kumar, Ch.Maheswara rao and V.V.S Kesava rao, “Investigation of Effect of Speed, Feed And Depth of Cut onMultiple Responses Using Vikor Analysis”, IJMTER, vol.5, issue.2, pp. 164-168, 2018.
[4] Ch.Maheswara Rao, K. Jagadeeswara Rao and K.Suresh, “Optimization of Material Removal Rate and Surface Roughness Using Grey Analysis”, IJERD, vol.12, issue.3, pp.49-58, 2016.
[5] B.M. Gopalaswamy, B. Mondal and S. Ghosh, “Taguchi Method and ANOVA: An Approach for Process Parameters Optimization of Hard Machining While Machining Hardened Steel”, Journal of Scientific and Industrial Research, vol. 68, 2009, pp. 686-695.
[6] Ch.Maheswara Rao, K. Venkata Subbaiah and Ch. Suresh, “Prediction of Optimal Designs for Material Removal Rate and Surface Roughness Characteristics”, International Journal of Lean Thinking, Vol-7, Issue-2, 2016, pp.24-46.
[7] H.Kumar, M. Abbas, Aas Mohammad and H. Zakir Jafri, “Optimization of Cutting Parameters in CNC turning”, IJERA, vol. 3, no. 3, 2013, pp. 331-334.
[8] Ch.Maheswara Rao and K. Venkata Subbaiah, “Optimization of Surface Roughness in CNC Turning Using Taguchi method and ANOVA”, International Journal of Advanced Science and Technology, Vol-93, 2016, pp.1-14.
[9] S.Thamizhmanii, S. Saparudin and S. Hasan, “Analysis of Surface Roughness by Turning Process Using Taguchi Method”, Journal of Achievements in Materials and Manufacturing, vol. 20, no. 1-2, (2007), pp. 503-506.
[10] H.Kumar, M. Abbas, Aas Mohammad and H. Zakir Jafri, “Optimization of Cutting Parameters in CNC turning”, IJERA, vol. 3, no. 3, 2013, pp. 331-334.
[11] Ch.Maheswara Rao, K. Venkata Subbaiah and K. Sowjanya, “Influence of Speed, Feed and Depth of cut on Multiple Responses in CNC Turning”, International Journal of Advanced Science and Technology,Vol-92, 2016, pp.59-76.
[12] Ch.Maheswara Rao and K. Venkata Subbaiah, “Effect and Optimization of EDM Process Parameters on Surface Roughness for EN41 Steel”, International Journal of Hybrid Information Technology, Vol-9, No.5, 2016, pp.343-358.
[13] V.Muthu Kumar, A. Suresh Babu, R. Venkata Swamy and M. Raajenthiren, “Optimization of the WEDM Parameters on Machining Incoloy 800 Super Alloy with Multiple Quality Characteristics”, International Journal of Science and Technology, vol. 2, no. 6, 2010, pp. 1538.
[14] Ch.Maheswara Rao and K. Venkata Subbaiah, “Application of WSM, WPM and TOPSIS Methods for the Optimization of Multiple Responses”, International Journal of Hybrid Information Technology, Vol-9, No.10, 2016, pp.59-72.
15] Ch.Maheswara Rao and K. Venkata Subbaiah, “Application of MCDM Approach-TOPSIS for the Multi Objective Optimization Problem”, International Journal Of Grid And Distributed Computing, vol.9, No.10, pp.17-32, 2016.
[16] Ch.Maheswara Rao, S.Srikanth and R.Vara Prasad and G.Babji, “Simultaneous Optimization of Roughness Parameters Using TOPSIS”, IJETT, vol.49, No.3, pp.150-157, 2017.
[17] S.S.Chaudhari, S. S. Khedka and N. B. Borkar, “Optimization of Process Parameters Using Taguchi Method Approach with Minimum Quantity Lubrication for Turning”, International Journal of Engineering Research and Applications, vol.4, 2011, pp. 1268.
[18] Ch.Maheswara Rao and R.Vara Prasad, “Effect of Milling Process Parameters on The Multiple Performance Characteristics, Journal of Industrial Mechanics, vol.3, issue.2, pp.1-9, 2018.
[19] Ch.Maheswara Rao and B.Naga Raju, “Effect of WEDM Process Parameters on The Multiple Responses Using VIKOR Analysis, Journal of Recent Activities In Production, vol.3, issue.2, pp. 1-7, 2018.
[20] P.Ramya, M. Raja roy, M. Srinivasa Rao and N. Ramanaiah, “Evaluation of % Weight loss and surface roughness of duplex coated Ti6Al4V alloy using Taguchi Optimization Technique:, IJETT, Vol.30, No.6, Dec-2015.

Keywords
Surface roughness (Ra), Mean cutting force (Fm), Specific cutting force (Ks), RSM and ANOVA.