References
- Kumar, S.P.L.; Jerald, J.; Kumanan, S.; Prabakaran, R. A review on current research aspects in tool-based micromachining processes. Materials and Manufacturing Processes 2014, 29, 1291–1337.
- Huang, S.F.; Liu, Y.; Li, J.; Hu, H.X.; Sun, L.Y. Electrochemical discharge machining micro-hole in stainless steel with tool electrode high-speed rotating. Materials and Manufacturing Processes 2014, 29, 634–637.
- Behroozfar, A.; Razfar, M.R. Experimental study of the tool wear during the electrochemical discharge machining (ECDM). Materials and Manufacturing Processes 2016, 31, 574–580.
- Singh, T.; Dvivedi, A. An ecdm approach for the development of 3d microchannels on glass substrates. International Journal of Research in Engineering and Technology 2016, 5, 125–127.
- Behroozfar, A.; Razfar, M.R. Experimental and numerical study of material removal in electrochemical discharge machining (ECDM). Materials and Manufacturing Processes 2016, 31, 495–503.
- West, J.; Jadhav, A. ECDM methods for fluidic interfacing through thin glass substrates and the formation of spherical microcavities. Journal of Micromechanics and Microengineering 2007, 17, 403–409.
- Cao, X.D.; Kim, B.K.; Chu, C.N. Micro-structuring of glass with features less than 100 µm by electrochemical discharge machining. Precision Engineering 2009, 33, 459–465.
- Singh, T.; Dvivedi, A. Developments in electrochemical discharge machining: A review on electrochemical discharge machining, process variants and their hybrid methods. International Journal of Machine Tools and Manufacture 2016, 105, 1–13.
- Fascio, V.; Wuthrich, R.; Viquerat, D.; Langen, H. 3D microstructuring of glass using electrochemical discharge machining (ECDM); In proceedings of International Symposium on Micromechatronics and Human Science, Japan, Nov 23–26, 1999, IEEE.
- Gupta, P.K.; Dvivedi, A.; Kumar, P. A study on the phenomenon of hole overcut with working gap in ECDM. Journal of Production Engineering 2014, 17, 30–34.
- Kulkarni, A.; Sharan, R.; Lal, G.K. An experimental study of discharge mechanism in electrochemical discharge machining. International Journal of Machine Tools and Manufacture 2002, 42 (10), 1121–1127.
- Ziki, J.D.A.; Wuthrich, R. The machining gap during constant velocity-feed glass micro-drilling by spark assisted chemical engraving. Journal of Manufacturing Processes 2015, 19, 87–94.
- Gupta, P.K.; Dvivedi, A.; Kumar, P. Developments on electrochemical discharge machining: A review of experimental investigations on tool electrode process parameters. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 2015, 229 (6), 910–920.
- Yang, C.K.; Wu, K.L.; Hung, J.C.; Lee, S.M.; Lin, J.C.; Yan, B.H. Enhancement of ECDM Efficiency and Accuracy by Spherical Tool Electrode. International Journal of Machine Tools and Manufacture 2011, 51 (6), 528–535.
- Zheng, Z.P.; Su, H.C.; Huang, F.Y.; Yan, B.H. The tool geometrical shape and pulse-off time of pulse voltage effects in a Pyrex glass electrochemical discharge microdrilling process. Journal of Micromechanics and Microengineering 2007, 17, 265–272.
- Han, M.S.; Min, B.K.; Lee, S.J. Modeling gas film formation in electro chemical discharge machining processes using a side-insulated electrode. Journal of Micromechanics and Microengineering 2008, 18, 8.
- Han, M.S.; Min, B.K.; Lee, S.J. Micro-electrochemical discharge cutting of glass using a surface-textured tool. CIRP Journal of Manufacturing Science and Technology 2011, 4, 362–369.
- Yang, C.K.; Cheng, C.P.; Mai, C.C. Effect of surface roughness of tool electrode materials in ECDM performance. International Journal of Machine Tools and Manufacture 2010, 50, 1088–1096.
- Chak, S.K.; Rao, P.V. The drilling of Al2O3 using a pulsed DC supply with a rotary abrasive electrode by the electrochemical discharge process. International Journal of Advanced Manufacturing Technology 2008, 39, 633–641.
- Doremus, R.H.; Johnson, W.A. Depths of fracture-initiating flaws and initial stages of crack propagation in glass. Journal of Materials Science 1978, 13, 855–858.
- Wuthrich, R. Micro Machining using Electrochemical Discharge Phenomenon: Fundamentals and Applications of Spark Assisted Chemical Engraving, William Andrew Corporation: Burlington, USA, 2009. 75.
- Guo, Y.; Wang, L.; Zhang, G.; Hou, P. Multi-response optimization of the electricaldischarge machining of insulating zirconia. Materials and Manufacturing Processes 2017, 32, 294–301.
- Prakash, C.; Kansal, H.K.; Pabla, B.S.; Puri, S. Experimental investigations in powder mixed electric discharge machining of Ti–35Nb–7Ta–5Zr-titanium alloy. Materials and Manufacturing Processes 2017, 32, 274–285.
- Rattan, N.; Mulik, R.S. Improvement in material removal rate (MRR) using magnetic field in TW-ECSM process. Materials and Manufacturing Processes 2017, 32, 101–107.
- Ay, M.; Çaydaş, U.; Hasçalık, A. Optimization of micro-EDM drilling of Inconel 718 superalloy. International Journal of Advanced Manufacturing Technology 2013, 66 (5), 1015–1023.
- Bhuyan, B.K.; Yadava, V. Experimental study of traveling wire electrochemical spark machining of borosilicate glass. Materials and Manufacturing Processes 2014, 29, 298–304.
- Goud, M.; Sharma, A.K.; Jawalkar, C. A review on material removal mechanism in electrochemical discharge machining (ECDM) and possibilities to enhance the material removal rate. Precision Engineering 2016, 45, 1–17.
- Gupta, P.K.; Dvivedi, A.; Kumar, P. Effect of pulse duration on quality characteristics of blind hole drilled in glass by ECDM. Materials and Manufacturing Processes 2016, 31, 1740–1748.