Frontiers of Mechanical Engineering >

2012 , Vol. 7 >Issue 3: 288 - 299

DOI: https://doi.org/10.1007/s11465-012-0333-4

RESEARCH ARTICLE

Optimization of multi machining characteristics in WEDM of WC-5.3%Co composite using integrated approach of Taguchi, GRA and entropy method

  • Kamal JANGRA , 1 ,
  • Sandeep GROVER 1 ,
  • Aman AGGARWAL 2
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  • 1. YMCA University of Science and Technology, Haryana 121006, India
  • 2. Guru Premsukh Memorial College of Engineering, New Delhi 110036, India

Received date: 19 Mar 2012

Accepted date: 05 May 2012

Published date: 05 Sep 2012

Copyright

2014 Higher Education Press and Springer-Verlag Berlin Heidelberg
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Abstract

Wire electrical discharge machining (WEDM) is a well known process for generating intricate and complex geometries in hard metal alloys and metal matrix composites with high precision. In present work, intricate machining of WC-5.3%Co composite on WEDM has been reported. Taguchi’s design of experiment has been utilised to investigate the process parameters for four machining characteristics namely material removal rate, surface roughness, angular error and radial overcut. In order to optimize the four machining characteristics simultaneously, grey relational analysis (GRA) coupled with entropy measurement method has been employed. Through GRA, grey relational grade has been computed as a performance index for predicting the optimal parameters setting for multi machining characteristics. Using Analysis of Variance (ANOVA) on grey relational grade, significant parameters affecting the multi-machining characteristics has been determined. Confirmatory results prove the potential of present approach.

Key words: tungsten carbide composite; wire electrical discharge machining (WEDM); Taguchi method; grey relational analysis (GRA); entropy measurement method

Cite this article

Kamal JANGRA , Sandeep GROVER , Aman AGGARWAL . Optimization of multi machining characteristics in WEDM of WC-5.3%Co composite using integrated approach of Taguchi, GRA and entropy method[J]. Frontiers of Mechanical Engineering, 2012 , 7(3) : 288 -299 . DOI: 10.1007/s11465-012-0333-4

References

Publishing order | Descend order by publishing year | Descend order by cited within
1
Sarin V K. Cemented carbide cutting tools. Advances in Powder Metallurgy, 1981, 253-287

2
Kim H C, Shon I J, Munir Z A. Rapid sintering of ultra-fine WC-10% Co by high-frequency induction heating. Journal of Materials Science, 2005, 40(11): 2849-2854

DOI

3
Jahan M P, Rahman M, Wong Y S. A review on the conventional and micro-electrodischarge machining of tungsten carbide. International Journal of Machine Tools & Manufacture, 2011, 51(12): 837-858

DOI

4
Liu K, Li X P. Ductile cutting of tungsten carbide. Journal of Materials Processing Technology, 2001, 113(1-3): 348-354

DOI

5
Liu K, Li X P, Rahman M. Characteristics of high speed micro cutting of tungsten carbide. Journal of Materials Processing Technology, 2003, 140(1-3): 352-357

DOI

6
Engqvist H, Ederyd S, Axen N, Hogmark S. Grooving wear of single-crystal tungsten carbide. Wear, 1999, 230(2): 165-174

DOI

7
Jia K, Fischer T E. Sliding wear of conventional and nanostructured cemented carbides. Wear, 1997, 203-204: 310-318

DOI

8
Jangra K, Jain A, Grover S. Optimization of multiple-machining characteristics in wire electrical discharge machining of punching die using grey relational analysis. Journal of Scientific and Industrial Research, 2010, 69: 606-612

9
Kondaya D, Krishna A G. An integrated evolutionary approach for modelling and optimization of wire electrical discharge machining. In: Proceedings of the Institution of Mechanical Engineers. Part B, Journal of Engineering Manufacture, 2011, 225: 549-567

10
Lee S H, Li X P. Study of the effect of machining parameters on the machining characteristics in electrical discharge machining of tungsten carbide. Journal of Materials Processing Technology, 2001, 115(3): 344-358

DOI

11
Lee S H, Li X P. Study of the surface integrity of the machined workpiece in the EDM of tungsten carbide. Journal of Materials Processing Technology, 2003, 139(1-3): 315-321

DOI

12
Puertas I, Luis C J, Alvarez L. Analysis of the influence of EDM parameters on surface quality, MRR and EW of WC-Co. Journal of Materials Processing Technology, 2004, 153,154: 1026-1032

DOI

13
Mahdavinejad R A, Mahdavinejad A. ED machining of WC-Co. Journal of Materials Processing Technology, 2005, 162,163: 637-643

DOI

14
Kim C H, Kruth J P. Influence of electrical conductivity of dielectrical fluid on WEDM of sintered carbide. KSME International Journal, 2001, 15(12): 1276-1282

15
Lauwers B, Liu W, Eeraerts W. Influence of the composition of WC-based cermets on manufacturability by wire-EDM. Journal of Manufacturing Processes, 2006, 8(2): 83-89

DOI

16
Saha P, Singha A, Pal S K, Saha P. Soft computing models based prediction of cutting speed and surface roughness in wire electro-discharge machining of tungsten carbide cobalt composite. International Journal of Advanced Manufacturing Technology, 2008, 39(1,2): 74-84

DOI

17
Jangra K, Grover S, Chan F T S, Aggarwal A. Digraph and matrix method to evaluate the machinability of tungsten carbide composite with wire EDM. International Journal of Advanced Manufacturing Technology, 2011, 56(9-12): 959-974

DOI

18
Wang C C, Chow H M, Yang L D, Lu C T. Recast layer removal after electrical discharge machining via Taguchi analysis: A feasibility study. Journal of Materials Processing Technology, 2009, 209(8): 4134-4140

DOI

19
Ross P J. Taguchi Techniques for Quality Engineering. New York: McGraw-Hill, 1998

20
Roy R K. Design of Experiments Using the Taguchi Approach: 16 Steps to Product and Process Improvement. New York: Wiley-Interscience, 2001, 179-186

21
Deng J. Control problems of grey system. Systems & Control Letters, 1982, 5: 288-294

22
Lin C L. Use of the Taguchi method and grey relational analysis to optimize turning operations with multiple performance characteristics. Materials and Manufacturing Processes, 2004, 19(2): 209-220

DOI

23
Lu H S, Chang C K, Hwang N C, Chung C T. Grey relational analysis coupled with principal component analysis for optimization design of the cutting parameters in high-speed end milling. Journal of Materials Processing Technology, 2009, 209(8): 3808-3817

DOI

24
Chiang Y M, Hsieh H H. The use of the Taguchi method with grey relational analysis to optimize the thin film sputtering process with multiple quality characteristics in color filter manufacturing. Computers & Industrial Engineering, 2009, 56(2): 648-661

DOI

25
Vijayan S, Raju R, Rao R. Multi objective optimization of friction stir welding process parameters on Aluminium alloy AA5083 using Taguchi based grey relational analysis. Materials and Manufacturing Processes, 2010, 25(11): 1206-1212

DOI

26
Sharma A, Yadava V. Optimization of cut quality characteristics during Nd: YAG laser straight cutting of Ni-Based superalloy thin sheet using grey relational analysis with entropy measurement. Materials and Manufacturing Processes, 2011, 26(12): 1522-1529

DOI

27
Palanikumar K, Latha B, Senthilkumar V S, Davim J P. Analysis on drilling of GFRP composites Using Grey relational Analysis. Materials and Manufacturing Processes, 2012, 27(3), 297-305

28
Jangra K, Grover S, Aggarwal A. Simultaneous optimization of material removal rate and surface roughness for WEDM of WC-Co composite using grey relational analysis along with Taguchi method. International Journal of Industrial Engineering Computations, 2011, 2(3): 479-490

DOI

29
Panda M C, Yadava V. Intelligent modelling and multi-objective optimization of die sinking electrode chemical cpark machining process. Materials and Manufacturing Processes, 2012, 27(1), 10-25

30
Singh G K, Yadava V, Kumar R. Diamond face grinding of WC-Co composite with spark assistance: Experimental study and parameter optimization. International Journal of Precision Engineering and Manufacturing, 2010, 11(4): 509-518

DOI

31
Rao R, Yadava V. Multi-objective optimization of Nd:YAG laser cutting of thin super alloy sheet using grey relational analysis with entropy measurement. Optics & Laser Technology, 2009, 41(8): 922-930

DOI

32
Garg R K, Singh K K, Sachdeva A, Sharma V S, Ojha K, Singh S. Review of research work in sinking EDM and WEDM on metal matrix composite materials. International Journal of Advanced Manufacturing Technology, 2010, 50(5-8): 611-624

DOI

33
Jangra K, Grover S, Aggarwal A. Machinability evaluation of WC-Composite with wire EDM. Journal of Manufacturing Technology Research, 2011, 3(1,2): 6

34
Boujelbene M, Bayraktar E, Tebni W, Salem S B. Influence of machining parameters on the surface integrity in electrical discharge machining. Archives of Material Science and Engineering, 2009, 37(2): 110-116

35
Han F, Jiang J, Yu D. Jiang, Jun, Yu, D. Influence of machining parameters on surface roughness in finish cut of WEDM. International Journal of Advanced Manufacturing Technology, 2007, 34(5,6): 538-546

DOI

36
Poros D, Zaborski S. Semi-empirical model of efficiency of wire electrical discharge machining of hard to machine materials. Journal of Materials Processing Technology, 2009, 209(3): 1247-1253

DOI

37
Wen K L, Chang T C. The grey entropy and its application in weighting analysis. In: Proceedings of IEEE International Conference on System, Man and Cybernetics, 1998, 2: 1842-1844

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