EFFECT OF PROCESS PARAMETERS ON PERFORMANCE MEASUREMENT OF WIRE ELECTRICAL DISCHARGE MACHINING
Keywords:
geometries, specialize, AccompanyingAbstract
Accompanying the development of mechanical industry, the demands for alloy materials having high hardness, toughness and impact resistance are increasing. Wire EDM machines are used to cut conductive metals of any hardness or that are difficult or impossible to cut with traditional methods. The machines also specialize in cutting complex contours or fragile geometries that would be difficult to be produced using conventional cutting methods. Machine tool industry has made exponential growth in its manufacturing capabilities in last decade but still machine tools are not utilized at their full potential. This limitation is a result of the failure to run the machine tools at their optimum operating conditions. The problem of arriving at the optimum levels of the operating parameters has attracted the attention of the researchers and practicing engineers for a very long time.
References
Liao,Y.S., Huang, J.T., Chen, Y.H. (2004), “ A study to achieve a fine surface finish in Wire-EDM” , Journal of Materials Processing Technology, 149,165–171
Gauri, S.K. and Chakraborty, S. (2009), “Multi-response optimization of wedm process using principal component analysis”, International Journal of Advanced Manufacturing Technology, 41, 741-748.
Ramakrishnan,R. and Karunamoorthy,L. (2008), “Modeling and multi-response optimization of Inconel 718 on machining of CNC WEDM process”, Journal of materials processing technology, 2 0 7, 343–349.
Kanlayasiri, K., Boonmung, S. (2007), “An investigation on effects of wire-EDM machining parameters on surface roughness of newly developed DC53 die steel”, Journal of Materials Processing Technology, 187–188, 26–29.
Abbas, N.M., Solomon, D.G., Bahari, M. F. (2007), “A review on current research trends in electrical discharge machining (EDM)”, International Journal of Machine Tools & Manufacture, 47, 1214–1228.
Abouelatta, O.B. and Madl, J. (2001), “Surface roughness prediction based on cutting parameters and tool vibrations in turning operations”, Journal of Materials Processing Technology, 118, 269-277.
Adler, Yu. P., Markova, E.V., Granovsky, Yu.V. (1975), “The design of experiments to find optimal conditions”, Mir Publishers, Moscow.
Aggarwal, A., Singh H., Kumar, P. and Singh, M.(2008), “Modeling of machining parameters and cooling conditions in hard turning of AISI P-20 tool steel using response surface methodology and desirability graphs”, International Journal of Machining & Machinability of Materials , 4(1), 95- 110.
Aggarwal, A., Singh H., Kumar, P. and Singh, M. (2009). “Simultaneous optimization of conflicting responses for CNC turned parts using desirability function”, International Journal of Manufacturing Technology and Management, 18, 319-332.
Akhanazarova, S. and Kafarov, V. (1982), “Experiment optimization in chemistry and chemical engineering”, Mir Publishers, Moscow.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2016 International Journal for Research Publication and Seminar
This work is licensed under a Creative Commons Attribution 4.0 International License.
Re-users must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use. This license allows for redistribution, commercial and non-commercial, as long as the original work is properly credited.
