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Study of material removal rate and electrode wear ratio for micro electrical discharge milling of aisi 420 and stavax esr

Mohammad Yeakub Ali, and Khan, Ahsan Ali, and Munirah Hamzah, and Nor Azura Khalid, (2009) Study of material removal rate and electrode wear ratio for micro electrical discharge milling of aisi 420 and stavax esr. International Journal of Mechanical and Materials Engineering, 4 (3). pp. 300-308. ISSN 1823-0334

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Official URL: http://ejum.fsktm.um.edu.my/ArticleInformation.aspx?ArticleID=818

Affiliations

International Islamic University Malaysia, Faculty of Engineering, Department of Manufacturing and Materials Engineering
International Islamic University Malaysia, Faculty of Engineering, Department of Manufacturing and Materials Engineering
International Islamic University Malaysia, Faculty of Engineering, Department of Manufacturing and Materials Engineering
International Islamic University Malaysia, Faculty of Engineering, Department of Manufacturing and Materials Engineering

Abstract

This paper investigates micro electrical discharge (ED) milling for AISI 420 and Stavax ESR stainless steel using tungsten carbide electrode. For each of the materials, experiments have been conducted using the full factorial combination of gap voltage, capacitance and feed rate. Two responses material removal rate (MRR) and electrode wear ratio (EWR) are analyzed. Both MRR and EWR are found to be higher for AISI 420 compared to that of Stavax for the same machining parameters and environment. Empirical models are developed for the estimation of MRR and EWR. The empirical relationship shows that the feed rate and capacitance are the most important factors for MRR. However, gap voltage and capacitance are the main influential factors for EWR. Although the trend of relationship of MRR and EWR is found to be similar for both materials, the level of influence is found to be significantly different. For multiple optimization of MRR and EWR, the machining parameters are determined analytically and verified experimentally. The optimized values of gap voltage and feed rate are 100 V and 6 m.s-1 for both materials. However, the optimized capacitance is 8.55 nF and 1 nF for AISI 420 and Stavax ESR respectively. The verification experiment shows that the measured values of MRR and EWR are within 5-10% of the predicted values. For the Stavax ESR the MRR and EWR are found lower than that for AISI 420. The possible reasons of these lower MRR and EWR are discussed.

Item Type:Journal
Keywords:AISI 420, Stavax ESR, Micro ED milling, MRR, EWR
Subjects:T Technology, Engineering
ID Code:10180

Ali, M.Y., 2009. Fabrication of Microfluidic Channel using Micro End Milling and Micro Electrical Discharge Milling. International Journal of Mechanical and Materials Engineering 4: 93-97.

Ali, M.Y., Loo, Y.W. (2007) Geometrical integrity of micromold cavity sputtered by FIB using multilayer slicing approach. Microsystem Technologies 13:103-107.

Chen, G.L., Engin, W.Y.J., Cheng, J.C., Yao, J.C., 2006. Study on burr formation in micro-machining using micro-tools fabricated by micro-EDM. Precision Engineering 31:122-129.

Conforma, C., 2006. Standard tungsten carbide cladding formulas-Oilfield. Wear solution for the long run: Technical Bulletin OF-003-02/06.

Ding, X., Liew, W.Y.H., Ngoi, B.K.A., Gan, J.G.K., Yeo, S.H., 2002. Wear of CBN tools in ultra-precision machining of STAVAX. Tribology Letters 12:3-12.

Hung, N.P., Ali, M.Y., Yuan S., 2000. Producing LIGA-competitive microcomponents. Proc International Conference on Micromachining and Microfabrication Process Technology VI (22-25 October), California, USA, SPIE 4174, 49-57.

Khan, A.A., Ali, M.Y., Haque, M.M., 2009. A Study of Electrode Shape Configuration on the Performance of Die Sinking EDM. International Journal of Mechanical and Materials Engineering 4: 19-23.

Kim, Y.T., Park, S.J., Lee, S.J., 2005. Micro/meso-scale shapes machining by micro EDM process. International Journal of Precision Engineering and Manufacturing 6:5-11.

Lauwers, B., Kruth, J.P., Liu, W., Eeraerts, W., Schacht, B., Bleys, P., 2004. Investigation of material removal mechanism in EDM of composite ceramic materials. Journal of Materials Processing Technology 149:347–352.

Liao, Y.S., Yu, Y.P., 2004. Study of specific discharge energy in WEDM and its application. International Journal of Machine Tools and Manufacture 44:1373-1380.

Mehfuz, R., Ali, M.Y., 2008. Investigation of machining parameters for the multiple response optimization of micro electro discharge milling. The International Journal of Advanced Manufacturing Technology 43(3): 264-275.

Morgan, C.J., Vallance, R.R., Marsh, E.R., 2006. Micro-machining and micro-grinding with tools fabricated by micro electro-discharge machining. International Journal of Nanomanufacturing 1:242-258.

Neo, K.S., Rahman, M., Li, X.P., Khoo, H.H., Sawa, M., Maeda, Y., 2003. Performance evaluation of pure CBN tools for machining of steel. Journal of Materials Processing Technology 140:326-331.

Ong NS, Zhang H, Woo WH (2006) Plastic injection molding of high-aspect ratio micro-rods. Materials and Manufacturing Processes 21:824-831.

Parmaco, 2006. Injection moulded material properties and application data. Parmaco Metal Injection Molding AG 30.12.2006.

Ruprecht, R., Gietzelt, T., Müller, K., Piotter, V., Haußelt, J., 2002. Injection molding of microstructured components from plastics, metals and ceramics. Microsystem Technologies 8: 351-358.

Uddeholm, 2007. Uddeholm Stavax® ESR. www.uddeholm.com 5.11.2007:1-11.

Wang, M.H., Zhu, D., 2008. Fabrication of multiple electrodes and their application for micro-holes array in ECM. International Journal of Advanced Manufacturing Technology 41(1-2): 42-47.

Wong, Y.S., Rahman, M., Lim, H.S., Han, H., Ravi, N., 2003. Investigation of micro-EDM material removal characteristics using single R-C discharges. Journal of Materials Processing Technology 140:303–307.

Yan, B.H., Huang, S.H., Huang, F.Y., 2006. Bending strength analysis of micro WC-shaft manufactured by micro electro-discharge machining. The International Journal of Advanced Manufacturing Technology 29:695-706.

Yuan, J.L., Lou, F.Y., Wang, Z.W., Chang, M., Du, W.P., Tao, B.C., 2004. Research on ultra-precision process of STAVAX ESR. Materials Science Forum 471-472:63-66.

Yuan, S., Hung, N.P., Ngoi, B.K.A., Ali, M.Y., 2003. Development of microreplication processes- microinjection molding. Materials and Manufacturing Processes 18:731-751.

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