Effects of Machining Variables on Electrode Wear in Electric Discharge Machining

Authors

  • Navdeep Malhotra Shri Mata Vaishno Devi University, Kakrial, Jammu, J&K, India
  • Hari Singh National Institute of Technology, Kurukshetra, Haryana, India

Keywords:

Electric discharge machining (EDM), Electrode wear- wear ratio, Material removal rate

Abstract

Electric Discharge machining (EDM) has achieved remarkable success in the manufacturing of conductive materials for the modern industry. EDM is a non-traditional machining method commonly used to produce die-cavities via the erosion effect of electric discharge. The material is removed rapidly and repeatedly by spark discharge across the gap between the tool and the work-piece. In EDM, tool wear problem is very critical since the tool shape degeneration directly affects the final shape of the die cavity. In most of the EDM operation, the contribution of Electrode (tool) cost to the total operation cost is more than 70%. Due to this reason, the wear of Electrode should be carefully taken into consideration in planning and designing EDM operation.  In a complete EDM process, machining stages that include rough –cut, middle cut and finish cut are carried out sequentially. The variations of geometrical tool wear characteristics – namely, edge and front wear – and machining performance outputs – namely, work-piece removal rate, tool wear rate, relative wear and work-piece surface roughness – were studied in this paper with varying machining parameters. This research was focused on the electrode wear rate of Electro discharge machining with a focused review on effect of different machining parameters like Discharge current, Pulse duration, Pulse time, Polarity, Dielectric flushing method, flushing pressure, Use of powder suspension in dielectric, Particle size of Powder, Electrode material and Work-piece material, on electrode wear (tool wear) of EDM.

 

Downloads

Download data is not yet available.

References

Chen SL, Yan BH, Huang FY (1999) Influence of kerosene and distilled water as dielectrics on the electric discharge machining characteristics of Ti-6Al-4V. J Mater Process Technol 87:107–111

Chen Y, Mahdavian SM (1999) Parametric study into erosion wear in a computer numerical controlled electro-discharge machining process Wear 236:350–354

Cogun C, Akaslan S (2002) The effect of machining parameters on tool electrode wear and machining performance in electric discharge machining. KSME Int J 16(1):46–59

Crookall JR (1979) A theory of planar electrode face wear in EDM. Ann CIRP 28(1):125–129

Ghoreishi M, Atkinson J (2002) A comparative experimental study of machining characteristics in vibratory, rotary and vibro-rotary electrodischarge machining. J Mater Process Technol 120:374–384

Ho KH, Newman ST (2003) State of art electric discharge machining (EDM). Int J Mach Manuf 43(13: 1287-1300

Hocheng H, Lei WT, Hsu HS (1997) Preliminary study of material removal in electrical-discharge machining of SiC/Al. J Mater Process Technol 63:813–818

Jain V.K , Lal G.K , Philip Koshy (1993) Experimental investigations into electrical discharge machining with a rotating disk electrode. Precision Engineering, Volume 15, Issue 1, : 6-15

Jeswani ML (1979) Dimensional analysis of tool wear in electrical discharge machining. Wear 55:153–161

Jilani ST, Pandey PC (1984) Experimental investigation into the performance of water as dielectric in EDM. Int J Mach Tool Des Res 24(1):31–43

Khan A.A (2007) Electrode wear and material removal rate during EDM of Aluminium and mild steel using copper and brass electrodes, int. J. Adv. Manuf. Technol .

Khanra AK, Sarker BR, Bhattacharya B, Parthak LC, Godkhindi MM(2007) Performance of ZRB2-Cu composite as an EDM electrode. J mater Process Technol 1831: 122-126

Koenig W, Weill R, Wertheim R, Jutzler WI (1977) The flow fields in the working gap with electro-discharge-machining. Ann CIRP 25(1):71–76 500

König W, Jörres L (1987) Aqueous solutions of organic compounds as dielectrics for EDM sinking. Ann CIRP 36(1):105–109

Kruth JP, Stevens L, Froyen L, Lauwers B (1995) Study of the white layer of a surface machined by die-sinking electro-discharge machining. Ann CIRP 44(1):169–172.

Kunieda M, Muto H (2000) Development of multi-spark EDM. Ann CIPR 49(1) : 119-122.

Kunieda M, Yoshida M, Taniguchi N (1997) Electrical discharge machining in gas. Ann CIRP 46(1):143–146.

Lee HT, Tai TY (2003) Relationship between EDM parameters and surface crack formation. J Mater Process Technol 142: 676-683.

Lee HT, Yur JP (2000) Characteristic analysis of EDMed surfaces using the Taguchi approach. J mater manuf Proc 15: 781-806.

Lee SH, Li XP (2001) Study of the effect of machining parameters on the machining characteristics in electrical discharge machining of tungsten carbide. J Mater Process Technol 115:344–358.

Liu CC (2003) Microstructure and tool electrode erosion in EDMed of TiN/Si3N4 composites. Mater Sci Eng A 363:221-227.

Lonardo PM, Bruzzone AA (1999) Effect of flushing and electrode material on die sinking EDM. Ann CIRP 48(1):123–126.

Longfellow J, Wood JD, Palme RB (1968) The effects of electrode material properties on the wear ratio in spark-machining. J Inst Met 96:43–48

Luis CJ, Puertas I, villa G (2005) Material removal rate and electrode wear study on EDM of Silicon carbide. J Mater Process Technol 164-165 : 889-896

Luis, C. J, Puertas, Villa G., (2005) Material removal rate and electrode wear study on the EDM of silicon carbide, J material processing Technology 164-165 : 889-896.

Marafona J (2007), Black layer characterization and electrical discharge machining. J Mater Process Technol 184: 27-31.

Masuzawa T, Heuvelman CJ (1983) A self flushing method with spark erosion machining. Ann CIRP 32(1):109–111.

Mohan B, Rajadurai A, Satyanarayana KG (2002) Effect of SiC and rotation of electrode on electric discharge machining of Al-SiC composite. J Mater Process Technol 105:1–8.

Mohan B., Rajadurai A. , Satyanarayana (2002) K. G Effect of SiC and rotation of electrode on electric discharge machining of Al–SiC composite Journal of Materials Processing Technology, Volume 124, Issue 3, 20 : 297-304.

Mohri N, Suzuki M, Furuya M, Saito N (1995) Electrode wear process in electrical discharge machining. Ann CIRP 44(1):165–168 .

Mohri N, Takezawa H, Saito N (1994) On-the-machine measurement in EDM process by a calibration system with polyhedra. Ann CIRP.

Puertas I, Luis CJ, Alvares L (2004) Analysis of influence of EDM parameters on surface quality, MRR and EW of WC-Co. J mater Process Technol 153-154: 1026-1032.

Ramulu M, Paul G, Patel J (2001) EDM surface effects on the fatigue strength of a 15 vol% SiCp/Al metal matrix composite material. Compos Struct 54:79–86.

Rebelo JC, Morao DA, Kramer D, lebrun JL (1998) Influence of EDM pulse energy on the surface integrity of martensitic steel. J Mater Process Tcchnol 6:84-90 .

Samuel MP, Philip PK (1997) Power metallurgy tool electrodes for electrical discharge machining. Int J Mach Tools Manuf 37(11): 1625–1633 .

Shu KM, Tu GC(2003) Study of electric discharge grinding using metal matrix composite electrode. Int J Mach Tool Manuf 43: 845-854 .

Tzeng Y. F , Lee C. Y (2001), Effect of powder characteristics on Electric discharge Machining Efficiency, Int J Adv Manuf Technol 17: 586-592 ..

Yan BH, Tsai HC, Huang FY (2005). The effect of EDM of dielectric of a urea solution in water on modified surface of titanium. Int J Mach Manuf 45(2) : 194-200 .

Yan BH, Wang CC (1999) The machining characteristics of Al2O3/6061Al composite using rotary electro-discharge machining with a tube electrode. J Mater Process Technol 95:107–111.

Yan BH, Wang CC, Chow HM, Lin YC (2000) Feasibility study of rotary electrical discharge machining with ball burnishing for Al2O3/6061Al composite. Int J Mach Tools Manuf 40:1403–1421

Zarepour H, Tehrani AF, Karimi D, Amini S (2007) Statistical Analysis on electrode wear in EDM of tool steel DIN 1.2714 used in forging dies. J Mater Process Technol 187-188 : 711-714

Kalpakjian S, Schmid SR (2001) Manufacturing engineering and technology, 4th edn. Prentice Hall, Upper saddle River

Downloads

Published

2008-09-01

How to Cite

[1]
“Effects of Machining Variables on Electrode Wear in Electric Discharge Machining ”, JME, vol. 3, no. 3, pp. 155–162, Sep. 2008, Accessed: Dec. 22, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/637

Similar Articles

51-60 of 381

You may also start an advanced similarity search for this article.