參考文獻 |
[1] Irfan Ucun, KubilayAslantas, FevziBedir, “An experimental investigation of the effect of coating material on tool wear in micro milling of Inconel 718 super alloy”, Wear 300,pp.8–19,2013.
[2] J. F. Wilson, Practice ,Theory,” Electrochemical Machining”, Wiley-interscience, pp.4-7, 1971.
[3] B. Bhattacharyya, M. Malapati, J. Munda, “Experimental study on electrochemical micromachining”, Journal of Materials Processing Technology, pp.485-492, 2005.
[4] 朱樹敏,電化學加工技術,化學工業出版社,2006。
[5] 胡錦芳,同軸噴吸法於微電解加工之研究,國立雲林科技大學機械工程系,碩士論文,2007
[6] R. Schuster, V. Kirchner, P. Allongue, G. Ertl, “Electrochemical micromachining”, Science, pp.98-101, 2000.
[7] B. H. Kim, S. H. Ryu, D. K. Choi, C. N. Chu, “Micro electrochemical milling”, J. Micromech. Microeng, pp.124–129, 2005.
[8] J. C. Hung, B. H. Yan, H. S. Liu, H. M. Chow, “Micro-hole machining using micro-EDM combined with electropolishing”, J. Micromech Microeng, pp.1480–1486, 2006.
[9] K. P. Rajurkar, G. Levy, A. Malshe, M. M. Sundaram, J. McGeough, X. Hu1, R. Resnick, A. DeSilva, “Micro and Nano Machining by Electro- Physical and Chemical Processes”, Annals of the CIRP, pp.643-666, 2006.
[10] J. Kozak, K. P. Rajurkar, Y. Makkar, “Selected problems of micro-electrochemical machining”, Journal of Materials Processing Technology, pp426-431, 2004.
[11] S.H. Ahn, S.H. Ryu, D.K. Choi, C.N. Chu, “Electrochemical micro drilling using ultra short pulses”, Precision Engineering, pp.129-134, 2004.
[12] Hattori, “Electrochemical machining under orbital motion conditions”, Journal of Materials Processing Technology, pp.339-346, 2001.
[13] 崔海平,電化學結合電泳精密拋光不銹鋼基材加工研究,國立中央大學機械工程系,博士論文,2008。
[14] 尤俊欽,結合電化學與電泳沉積之微孔複合加工研究,國立中央大學機械工程系,碩士論文,2008。
[15] 楊曜光,磁場輔助微電化學銑削加工特性之研究,國立中央大學機械工程系,碩士論文,2009。
[16] H. P. Tsui, J. C. Hung, J. C. You, B. H. Yan, “Improvement of Electrochemical micro drilling accuracy using helical tool”, International Journal of Machine & Manufacture processes, pp.499-505, 2008.
[17] S.Skoczypiec, “Research on ultrasonically assisted electrochemical machining process”, International Journal of Advanced Manufacturing Technology, pp.565–574, 2011.
[18] B. Ghoshal, B.Bhattacharyya, “Influence of vibration on micro-tool fabrication by electrochemical machining”, International Journal of Machine Tools & Manufacture, pp.49–59, 2013.
[19] M. Wang, Y. Zhang, Z. He, W. Peng, “Deep micro-hole fabrication in EMM on stainless steel using disk micro-tool assisted by ultrasonic vibration” , Journal of Materials Processing Technology, pp.475–483, 2016.
[20] W. Natsu1, H. Nakayama1, and Z. Yu, “Improvement of ECM Characteristics by Applying Ultrasonic Vibration” , International fournal of precision engineering and manufacturing, pp. 1131-1136, 2012.
[21] B. Bhattacharyya, J. Munda, “Experimental investigation on the influence of electrochemical machining parameters on machining rate and accuracy in micromachining domain”, International Journal of Machine Tools & Manufacture, pp.1301-1310, 2003.
[22] B. Bhattacharyya, J. Munda, M. Malapati, “Advancement in electrochemical micro-machining”, International Journal of Machine Tools & Manufacture, pp.1577-1589, 2004.
[23] M. Sen, H.S. Shan, “A review of electrochemical macro- to micro-hole drilling processes”, International Journal of Machine Tools & Manufacture, pp.137-152, 2005.
[24] X. Lu, Y. Leng, “Electrochemical micromachining of titanium surfaces for biomedical applications”, Journal of Materials Processing Technology, pp.173-178, 2005.
[25] T. Kurita, K. Chikamori, S. Kubota, M. Hattori, “A study of three-dimensional shape machining with an ECMM system”, International Journal of Machine Tools & Manufacture, pp.1311-1318, 2006.
[26] B. J. Park, B. H. Kim, C. N. Chu, “The Effect of Tool Electrode Size on Characteristics of Micro Electrochemical Machining”, CIRP Annals - Manufacturing Technology, pp.197-200, 2006.
[27] B. Bhattacharyya, M. Malapati, J. Munda, A. Sarkar, “Influence of tool vibration on machining performance in electrochemical micro-machining of copper”, International Journal of Machine Tools & Manufacture, pp.335-342, 2007
[28] J. Munda, M. Malapati, B. Bhattacharyya, “Control of micro-spark and stray-current effect during EMM process”, Journal of Materials Processing Technology, pp.151-158, 2007.
[29] W. Natsu, T. Ikeda, M. Kunieda, “Generating complicated surface with electrolyte jet machining”, Precision Engineering, pp.33-39, 2007.
[30] L. Staemmler, K. Hofmann, H. Kuck, “Hybrid tooling by a combination of high speed cutting and electrochemical milling with ultrashort voltage pulses”, Microsyst Technol, pp.249-254, 2008.
[31] S. Pa, “Super finishing with ultrasonic and magnetic assistance in electrochemical micro-machining”, Electrochimica Acta, pp.6022–6027, 2009.
[32] Insoon Yang, Min Soo Park, Chong Nam Chu, “Micro ECM with ultrasonic vibrations using a semi-cylindrical tool”, International Journal of Precision Engineering and Manufacturing, pp.5-10, 2009.
[33] S. Ali, S. Hinduja, J. Atkinson, M. Pandya, “Shaped tube electrochemical drilling of good quality holes”, CIRP Annals - Manufacturing Technology, pp.185-188, 2009.
[34] Joseph J. Maurer, Jonathan J. Mallett, John L. Hudson, et al., “Electrochemical micromachining of Hastelloy B-2 with ultrashort voltage pulses”, Electrochimica Acta, pp.952-958, 2010.
[35] Z.W. Fan, L.W. Hourng, “Electrochemical micro-drilling of deep holes by rotational cathode tools”. Int. J. Adv. Manuf. Technol, pp. 555–563,2011
[36] Z.W. Fan, L.W. Hourng, M.Y. Lin, “Experimental investigation on the influence of electrochemical micro-drilling by short pulsed voltage” Int. J. Adv. Manuf. Technol, pp.957–966, 2012.
[37] J. Wang, W. Chen, F. Gao1, F. Han1, “Ultrasonically assisted electrochemical micro drilling with sidewall-insulated electrode” Institution of Mechanical Engineers , pp.466–474, 2016.
[38] H. Goel and P. M. Pandey, “Performance evaluation of different variants of jet electrochemical micro-drilling process”, Institution of Mechanical Engineers, Institution of Mechanical Engineers, pp.1–14, 2016.
[39] K. Egashira, A. Hayashi, Y. Hirai, K. Yamaguchi, M. Ota, “Drilling of microholes using electrochemical machining”, Precision Engineering, pp.338-343, 2018.
[40] Lilong, Ma Baoji, P. Cheng1, K. Yun1 & P. Yin, “Effect of magnetic field on the electrochemical machining localization”, The International Journal of Advanced Manufacturing Technology, pp 949–956, 2019.
[41] 黃俊曄,放電與超音波振動複合加工添加 TiC 及 SiC粉末對 Al-Zn-Mg 系合金加工特性之影響,國立中央大學,碩士論文,2000。
[42] J. F. Thorpe, R. D. Zerkle, “Theoretical Analysis of the Equilibrium Sinking of Shallow, Axially Symmetric, Cavities by Electrochemical Machining”, Electrochemical Society Princeton, pp. 1-39 , 1971.
[43] 廖哲範,脈衝微電化學之加工應用與評估,國立中央大學機械工程系,碩士論文,2005。
[44] 紀朝傑,電化學矽加工之研究與分析,國立中央大學機械工程系,碩士論文,2008。
[45] 黃宗霖,Inconel 718 銑削參數最佳化,國立高雄應用科技大學,碩士論文,2014
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