. .
.
To study influence of process parameters on the Wire EDM
.
.

References

 

  1. Hatchek R. L, (Mar. 1984), “EDM Update '84”, American Machinist, pp. 113- 124.

  2. Jennes, M., Snoeys, R., and Dekeyser, W.,(January 1984), “Comparison of various approaches to model the thermal load on the EDM- wire electrode”, Annals of CIRP, Vol. 33, pp.93- 98.

  3. Kim Chang Ho, Kruth Jean Pierre, (2001), “Influence of the Electrical Conductivity of dielectric on WEDM of Sintered Carbide”, Korean Society of Mechanical Engineers International Journal, Vol. 15, pp.1676- 1682.

  4. Lee S. H., and Li X. P, (2001), “Study of the effect of Machining parameters on the machining characteristics in Electric Discharge Machining of Tungsten Carbide,” Journal of Material Processing Technology, Vol. 115, pp. 344-358.

  5. Masuzawa T., Funjino M., and Kobayashi K., (January 1985), “Wire electro discharge grinding for micro machining,” Annals of CIRP, Vol.34, pp. 431- 434.

  6. Mishra P. K., (2002), “Non Conventional Machining Processes”, Narosa Publication House, New Delhi.

  7. Rajagopal K., and Noble C. F, (1979), “Some characteristics of wire electrode EDM” Proceedings of the 20th International Conference on Machine Tool Design and Research, Birmingham, pp. 557- 565.

  8. Rajurkar K. P. and Williams C. E, (1991), “Study of Wire Electrical Discharge Machined Surface Characteristics”, Journal of Materials Processing Technology, Vol. 28/1-2, pp. 127- 138.

  9. Scott D., Boyina S. and Rajurkar K. P., (1991), “Analysis and optimization of parameter combinations in Wire Electrical Discharge Machining”, International Journal of Production Research, Vol.29 (11), pp. 2189- 2207.

  10. Sho H., Orimo T., and Fukui M., “The effect of electrode materials on the characteristics of machinability of wire electrode discharge machines”, Proceedings of the International symposium for “Electro Machining”, (ISEM-9), Nagoya, 1989, pp. 219- 222.

  11. Trezise K. E., (1982), “A Physicist’s view of Wire EDM”, Proceedings of the International Conference on Machine Tool Design and Research, Vol. (23), pp. 413-419.

  12. Pardeshi S. S., (2010), Ph D thesis on, “Analysis for machining of sintered carbides by wire electric discharge process”, University of Pune.

Further Reading

 

  1. Benedict G. F., (1987), “Nontraditional Manufacturing Processes”, Marcel Dekker, New York.

  2. Complete EDM handbook. Compliments of www.ReliableEDM.com.

  3. Charmilles, (20th Oct 2004), “EDM Principles: Electrical Discharge Machining”, Corporate Publications, US.

  4. Dekeyser W. L., and Snoeys, R., (1989), “Geometrical accuracy of Wire EDM”, Proceedings of the International Symposium for Electro Machining, (ISEM-9) Nagoya, pp. 226- 232.

  5. EDM Today, (2007), January/February Issue.

  6. Fuzhu Han, Jiang Jun and Dingwen Yu., “Influence of machining parameters on surface roughness in finish cut of WEDM,” International Journal of Advance Manufacturing Technology, Vol. 34, 2007, pp. 538- 546.

  7. Ghosh A., and Mallik, A, (2008), “Manufacturing Sciences” EWP New Delhi, pp. 386-390.

  8. Ho K. H., Newman S.T., Rahimifard S., Allen R. D. (2004), “State of the art wire electrical discharge machining (WEDM)” International Journal of Machine Tools & Manufacture Vol. 44, pp.1247–1259.

  9. Ho K. H., Newman S. T., (2003), “State of the art in electrical discharge machining (EDM)”, International Journal of Machine Tools & Manufacture, Vol.43, pp.1287–1300.

  10. Huang J. T., Liao, Y. S., Hsue, W. J., (1999), “Determination of finish cutting operation number and machining parameters setting in wire electrical discharge machining” Journal of Material Process Technology, Vol. 87, Spp.69–81.

  11. Jilani S.T., Pandey, P.C. (1982), “Analysis and modelling of EDM parameters”, Precision Eng. 4 (4), pp. 215–221.

  12. Jilani S.T., Pandey, P.C., (1983), “Analysis of surface erosion in electrical discharge machining”, Wear 84 (3), pp. 275–284.

  13. Juhr H., Schulze H. P., Wollenberg G. and Künanz K., (2004), “Improved cemented carbide properties after wire-EDM by pulse shaping”, Journal of Material Processing Technology, Vol. 149, pp.178-183.

  14. Keith S. Hargrove, Duowen Ding, (2007), “Determining cutting parameters in wire EDM based on workpiece surface temperature distribution”, International Journal of Advance Manufacturing Technology, Vol.34, pp.295-299.

  15. Levy G. N., Maggi F., (1990), “WED machinability comparison of different steel grades”, Annals of CIRP, Vol. 39 (1), pp.183–185.

  16. 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 Vol.149, pp.165-171.

  17.  Lok Y. K., Lee, T. C., (1997), “Processing of advanced ceramics using the wire-cut EDM process”. Journal of Material Process Technology Vol. 63(1–3), pp.839–843.

  18. Mahdavinejad R. A., Mahdavinejad A., (2005), “ED machining of WC-Co”, Journal of Materials processing technology, Vol.162-163, pp. 637-643.

  19. Michael Schretter, (2001), “A special report July 3, Primedia Business Magazines and Media”, a PRIMEDIA company.

  20. Miller Scott F., Shih Albert J., Qu Jun, (2004), “Investigation of the spark cycle on material removal rate in wire”, International Journal of Machine Tools & Manufacture, Vol. 44, pp.391–400.

  21. Mishra P. K., Roy S., and Guha A., (August 2004), “Development of an improved voltage and current measurement system foe studying spark characteristics with application to electro discharge machining”, Proceedings of the Institution of Mechanical Engineers: Vol. 218, 8: Proquest Science Journals, pp.935-938.

  22. Mustafa Ilhan Gokler, Alp Mithat Ozanozgu, (2000), “Experimental investigation of effect of cutting parameters on surface roughness in the WEDM process”, International Journal of Machine Tools and Manufacture, Vol.40, pp.1831-1848.

  23. Mu-Tian Yan, et. al., (2007), “Surface quality improvement of wire – EDM using a fine finish power supply”, International Journal of Machine Tools and Manufacturing, Vol. 47, pp.1686-1694.

  24. Ozlem salman, Cengiz Kayacan, M., (2008), “Evolutionary programming for modeling the EDM parameters for roughness”, International Journal of Materials Processing Technology, Vol. 200, pp.347-355.

  25. P.M. Lonardo, A.A. Bruzzone, (1999), “Effect of flushing and electrode material on die sinking EDM”, Annals of CIRP, Vol. 48 (1), pp.123–126.

  26. Pardeshi S. S and Kamble S. J.,(AME-2008), “Analysis for Surface Roughness of machining of carbides using wire electric discharge machine,” International Conference on Advances in Mechanical Engineering, 15- 17 December, organized by SVNIT Surat, pp. 695-700.

  27. Prohaszka J., Mamalis A. G., Vaxevanidis N. M., (1997), “The effect of electrode material on machinability in wire electro-discharge machining”, Journal of Materials Processing Technology, Vol. 69, pp. 233–237.

  28. Puertas I., Luis C. J., Alvarez L., et. al., (2004) “Analysis of the influence of EDM parameters on surface quality, MMR and EW of WC-CO”, International Journal of Materials Processing Technology, Vol153-154, pp. 1026- 1032.

  29. Puri A. B, and Bhattacharyya B, (2003) “An analysis and optimization of the geometrical inaccuracy due to wire lag phenomenon in WEDM,” International Journal of Machine Tools & Manufacture, Vol. 43, pp. 151–159.

  30. Rebelo J. C., Morao A., Kermer Dias D., Lebrun J. L., (1998) “Influence of EDM pulse energy on the surface integrity of martenstic steels” Journal of Materials Processing Technology, Vol. 84, pp.90-96.

  31. Selçuk H., Halkaci, Abdülkadir Erden, (2004), “Experimental Investigation of Surface Roughness in Electrical Discharge Machining (EDM)”, Middle East Technical University Turkey, Journal of Material Process Technology, Vol. (133), pp. 234-230.

  32. Spedding T. A., and Wang Z. Q., (Jan.1997), “Parametric Optimization Surface Characterization of WEDM”, Precision Engg. ,Vol. 20, pp. 5-15.

  33. Tang Y. S., Ma S. C. and Chung L. K., (1995), “Determination of optimum cutting parameters in wire electrical discharge machining”, International Journal of Machine Tools and Manufacturers, Vol. 35(12), pp. 1693- 1701.

  34. Tosun N., Cogun C., (2003), “An investigation on wire wear in WEDM”, Journal of Material Process Technology, Vol. 134(3), pp. 273–278.

  35. Tosun N., Cogun C., Pihtili H., (2003), “The effect of cutting parameters on wire crater sizes in wire EDM”, International Journal of Advanced Manufacturing Technology Vol. 21, pp. 857–865.

  36. Wang W. M., and Rajurkar K. P., (1992), “Monitoring Sparking Frequency and Predicting Wire Breakage in WEDM”, ASME special volume on Sensors and Signal Processing for Manufacturing, PED Vol. 55, pp. 49-64.

  37. Williams E. M. et. al., (Jan. 1952), “Theory of Electric Spark Machining”, Transactions of AIEEE”, Vol. 71, pp. 105-108.

  38.  www.unl.edu/nmrc/wire

.....
..... .....
Copyright @ 2014 Under the NME ICT initiative of MHRD (Licensing Terms)
 Powered by Amrita Virtual Lab Collaborative Platform [ Ver 00.3.2 ]