MODELING AND REVIEW ON ELECTROCHEMICAL DISCHARGE MACHINING
Keywords:
ECDM, Micro fabrication, Ansys, Modeling, Micro-Electro-Mechanical systems(MEMS)Abstract
Electrochemical discharge machining (ECDM) process utilizes the spark discharge produced by gas film formation during electrolysis. In the conventional ECDM process, precise control of the spark generation is difficult because of the randomness of gas film formation which results in the significant deterioration of process qualities such as excessive overcut, poor machining accuracy and low machining repeatability. The undesirable overcut phenomenon strictly hinders the dimensional miniaturization of CDM process especially when the diameter of the applied tool is much smaller than 100 ptm. In this study a side insulated tool and dilute electrolyte concentration is proposed to reduce the undesirable overcut and thus, to improve the machining resolution of the ECDM process. Experiments are conducted with various machining parameters, such as spark ignition voltage, electrolyte concentration, and tool insulation. As a result, the feasibility of miniaturization in the ECDM process is phenomena. successfully improved by reducing the excessive overcut
References
. Basak I and Ghosh A. 1996. Mechanism of spark generation during electrochemical discharge machining: a theoretical model and experimental verification. J Mater Process Tech., 62: 46-53.
. Bhattacharyya, B., Doloi, B.N. and Sorkhel, S.K. 1999. Experimental investigations into electrochemical discharge machining (ECDM) of non-conductive ceramic materials. J Mater Process Tech., 95: 145-154.
. Bhattacharyya, B., Doloi, B.N. and Sorkhel, S.K. 1999.Experimental investigations into electrochemical discharge machining (ECDM) of non-conductive ceramic materials. J Mater Process Tech., 95: 145-154. 4.Bhondwe, K.L. et a J.A. McGeough, W. Munro, C. White, Comparative studies of ecm, edm and ecam, Precision Engineering 39 (1981) 155–160. (62. Kurafuji H and Suda
. Electrical discharge drilling of glass, CIRP Ann 1968;16: 415-419.Bhondwe,
. K.L., Yadava, V. and Kathiresan, G. 2006. Finiteelement prediction of material removal rate due to electrochemical spark machining. Int J Mach Tool Manu 46:1699–1706.
. Cao, X.D., Kim, B.H. and Chu, C.N. 2009. Micro structuring of glass with features less than 100 μm by electrochemical discharge machining. Precis Eng., 33: 459–465.
. Cao, X.D., Kim, B.H. and Chu, C.N. 2012. Hybrid micromachining of glass using ECDM and micro grinding. Int J PrecisEng Man., 14(1): 5–10.
. Cook, N.H., Foote, G.B., Jordan, P. et al. 1973. Experimental studies in electro-machining. J EngInd-T ASME 95(4): 945-950.
. Doloi, B., Mitra, S., Sorkhel, S.K. 1997. Experimental analysis on the electrochemical discharge machining (ECDM) system for advanced ceramics, International Conference on Precision Engineering, ICPE, Taipei, Taiwan, pp. 715±720. Gautam,
. N. and Jain, V.K. 1998. Experimental investigations into ECSD process using various tool kinematics. Int J Mach Tool Manu., 39: 15-27. Ghosh, A. 1997. Electrochemical Discharge Machining:
. Jawalkar CS. Investigation on performance enhancement of ECDM process while machining glass. PhD thesis. Roorkee: Indian Institute of Technology Roorkee, 2013.
. Jawalkar, C.S., Sharma, A.K. and Kumar, P. 2012.Micromachining with ECDM: research potentials andexperimental investigations. World AcadSci Eng Technol,61: 90–95.Khairy, A.B.E. and McGeough, J.A. 1989. Die-sinking by electroerosion-dissolution machining. CIRP Ann ManufTechnol, 39: 191-196.
. Krӧtz, H., Roth, R. and Wegener, K. 2013. Experimental investigation and simulation of heat flux into metallic surfaces due to single discharges in micro-electrochemical arc machining (micro-ECAM). Int J AdvManufTechnol, 68: 1267–1275.
. Kulkarni, A., Sharan, R. and Lal, G.K. 2003. Measurement of temperature transients in the electrochemical discharge machining process. Temperature: its measurement and control in science and industry. In: Eighth Temperature Symposium, AIP Conference Proceedings, Melville, NY, 4: 1069–1074.
. Kulkarni, A., Sharan, R. and Lal, G.K. 2002. An experimental study of discharge mechanism in electrochemical discharge machining. Int J Mach Tool Manu., 42: 1121–1127.
. Lijo, P. and Hiremath, S.S. 2014. Characterisation of micro channels in electrochemical discharge machining process. ApplMech Mater., 490-491: 238–242.
. Liu, J.W., Yue, T.M. and Guo, Z.N. 2009. Wire electrochemical discharge machining of Al2O3 particle reinforced aluminum alloy 6061. Mater Manuf Process, 24: 446–453. McGeough, J.A. 1974. Principles of Electrochemical Machining, Chapman & Hall, New York. (3) Micromachining Using Electro Chemical Discharge Phenomenon, Rolf Wuthrich, 2nd edition.
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