Abstract
The objective of the present experimental investigation is to improve the performance of electric discharge drilling using different electrode geometries as well as fabricating true blind holes into the workpiece. In order to avoid abnormal sparking, proper flushing during the process is an essential requirement which becomes less effective in case of the deep hole drilling. Modification in the tool geometry is an effective strategy for providing flushing and avoiding abnormal sparking. In this study, attempt has been made to reduce/eliminate the occurrence of abnormal sparking by cutting micro-slots of width 50 µm in the solid cylindrical electrodes of diameter 0.8 mm. Two electrode geometries (i.e., electrode with one micro-slot and electrode with two micro-slots) were compared with respect to material removal rate, tool wear rate, corner radius, and taper angle. The effect of different tool speeds has also been evaluated. The single slotted electrode with eccentric micro-slot was found best to fabricate truly blind holes into the workpiece. A high increase in aspect ratio (i.e., 150%) was recorded using single slotted electrode as compared to the solid electrode. It is interesting to note that the taper angle of the holes produced by slotted electrode has been reduced to 0.302º making a reduction of 54.24% as compared to the solid electrode. This reduction in the taper angle makes the holes much straighter which is a need of the hour.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
R. Manivannan and M.P. Kumar, Multi-Response Optimization of Micro-EDM Process Parameters on AISI304 Steel Using TOPSIS, J Mech Sci Technol, 2016, 30, p 137–144.
J.W. Murray et al., Physical and Electrical Characteristics of EDM Debris, J Mater Process Technol, 2016, 229, p 54–60.
M.P. Jahan, Y.S. Wong and M. Rahman, Experimental Investigations into the Influence of Major Operating Parameters During Micro-Electro Discharge Drilling of Cemented Carbide, Mach Sci Technol, 2012, 16, p 131–156.
R. Teimouri and H. Baseri, Effects of Magnetic Field and Rotary Tool on EDM Performance, J Manuf Process, 2012, 14, p 316–322.
S.H. Yeo et al., A New Pulse Discriminating System for Micro-EDM, Mater Manuf Process, 2009, 24, p 1297–1305.
T. Muthuramalingam et al., Monitoring and Fuzzy Control Approach for Efficient Electrical Discharge Machining Process, Mater Manuf Process, 2014, 29, p 281–286.
R. Kumar and I. Singh, A Modified Electrode Design for Improving Process Performance of Micro Electric Discharge Drilling, J Mater Process Technol, 2019, 264, p 211–219.
L. Li et al., Influence of Flushing on Performance of EDM with Bundled Electrode, Int J Adv Manuf Technol, 2012, 58, p 187–194.
O. Yilmaz et al., Effect of Single and Multi-Channel Electrodes Application on EDM Fast hole Drilling Performance, Int J Adv Manuf Technol, 2010, 51, p 185–194.
E. Nastasi et al., Analysis and Performance of Slotted Tools in Electrical Discharge Drilling, CIRP Annl Manuf Technol, 2014, 63, p 205–208.
P. Govindan et al., Experimental Characterization of Material Removal in Dry Electrical Discharge Drilling, Int J Mach Tools Manuf, 2010, 50, p 431–443.
V.K. Yadav et al., Effect of Tool Rotation in Near-Dry EDM Process on Machining Characteristics of HSS, Mater Manuf Process, 2019, 34, p 779–790.
V.K. Yadav et al., Performance Enhancement of Rotary Tool Near-Dry EDM of HSS by Supplying Oxygen Gas in the Dielectric medium, Mater Manuf Process, 2019, 34, p 1832–1846.
V.K. Yadav et al., Performance Enhancement of Rotary Tool Near-Dry EDM Process Through Tool Modification, J Braz Soc Mech Sci & Eng, 2021, 43, p 72.
R. Singh et al., EDM of High Aspect Ratio Micro-Holes on Ti-6Al-4V Alloy by Synchronizing Energy Interactions, Mater Manuf Process, 2020, 35, p 1188–1203.
M.R. Shabgard et al., Ultrasonic Assisted Electrical Discharge Machining of Ti6Al-4V Alloy, Mater Manuf Process, 2015, 30, p 991–1000.
H.K. Dave et al., A Taguchi Approach Based Study on Effect of Process Parameters in Electro-Discharge Machining Using Orbital Tool Movement, Int. J Mach Mach Mater, 2013, 13, p 52–66.
G.S. Prihandana et al., Study of Workpiece Vibration in Powder-Suspended Dielectric Fluid in Micro-EDM Processes, Int J Precis Eng Manuf, 2013, 14, p 1817–1822.
Y.H. Guu et al., Effect of Workpiece Rotation on Machinability during Electrical Discharge Machining, Mater Manuf Process, 2001, 16, p 91–101.
Y.C. Lin et al., Machining Characteristics of Hybird EDM with Ultrasonic Vibration and Assisted Magnetic Force, Int J Precis Eng Manuf, 2014, 16, p 1143–1149.
M. Kunieda et al., A Fundamental Study on a Horizontal EDM, Ann CIRP, 1988, 37, p 187–190.
M. Murali et al., A Novel Spark Erosion Technique for the Fabrication of High Aspect Ratio Micro-Grooves, Microsys Technol, 2004, 10, p 628–632.
C.C. Wang and B.H. Yan, Blind-Hole Drilling of Al2O3/6061Al Composite Using Rotary electro-Discharge Machining, J Mater Process Technol, 2000, 102, p 90–102.
L. Gu et al., Electrical Discharge Machining of Ti6Al4V with a Bundled Electrode, Int J Mach Tools Manuf, 2012, 53, p 100–106.
K. Wang et al., An Experimental Study of the Effects of Electrode Shapes on Micro-EDM Performances, Mater Sci Forum, 2016, 861, p 20–25.
J. Hung et al., Using a Helical Micro-Tool in Micro-EDM Combined with Ultrasonic Vibration for Micro-Hole Machining, J Micromech Microeng, 2006, 16, p 2705–2713.
S. Plaza et al., Experimental Study on Micro EDM-Drilling of Ti6Al4V Using Helical Electrode, Precis Eng, 2014, 38, p 821–827.
A. Singh, P. Kumar and I. Singh, Electric Discharge Drilling of Metal Matrix Composites with Different Tool Geometries, Proc Inst Mech Eng Part B J Eng Manuf, 2013, 227, p 1245–1249.
W. Zhiqiang, G. Hu and F. Fengzhou, Micro Hole Machining Using Double Helix Electrodes in Electro Discharge Machining, J Cent South Univ (Science Technol), 2015, 46, p 2857–2862.
M. Goiogana and A. Elkaseer, Self-Flushing in EDM Drilling of Ti6Al4V Using Rotating Shaped Electrodes, Materials, 2019, 12, p 989.
J. Wang and F. Han, Simulation Model of Debris and Bubble Movement in Electrode Jump of Electrical Discharge Machining, Int J Adv Manuf Technol, 2014, 74, p 591–598.
J. Wang and F. Han, Simulation Model of Debris and Bubble Movement in Consecutive-Pulse Discharge of Electrical Discharge Machining, Int J Mach Tools Manuf, 2014, 77, p 56–65.
R. Kumar, I. Singh and D. Kumar, Electro Discharge Drilling of Hybrid MMC, Procedia Eng, 2013, 64, p 1337–1343.
R. Kumar and I. Singh, Electric Discharge Sawing of Hybrid Metal Matrix Composites, Proc Inst Mech Eng Part B J Eng Manuf, 2017, 231, p 1–8.
G. Puthumana and S. Joshi, Investigations into Performance of Dry EDM Using Slotted Electrodes, Int J Precis Eng Manuf, 2011, 12, p 957–963.
D.T. Pham et al., An investigation of Tube and Rod Electrode Wear in Micro EDM Drilling, Int J Adv Manuf Technol, 2007, 33, p 103–109.
Funding
No funding was received for conducting this study.
Author information
Authors and Affiliations
Contributions
Both the authors (RK and IS) contributed equally.
Corresponding author
Ethics declarations
Conflict of interest
The authors have no conflicts of interest to declare that are relevant to the content of this article.
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Kumar, R., Singh, I. Blind Hole Fabrication in Aerospace Material Ti6Al4V Using Electric Discharge Drilling: A Tool Design Approach. J. of Materi Eng and Perform 30, 8677–8685 (2021). https://doi.org/10.1007/s11665-021-06052-0
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11665-021-06052-0