[1] Joshi SN, Pande SS. Intelligent process modeling and optimization of die-sinking electric discharge machining. Applied Soft Computing. 2011;11:2743–2755.
[2] Seyedzavvar M, Shabgard MR. Influence of Tool Material on the Electrical Discharge Machining of AISI H13 Tool Steel. Advanced Materials Research. 2012; 445:988-993.
[3] Gupta K, Gupta MK. Developments in nonconventional machining for sustainable production: A state-of-the-art review. Proc Inst Mech Eng C J Mech Eng Sci. 2019; 233:4213–4232
[4] Nanu D, Nanu A. Perspectives of the dimensional processing through electric erosion processing. Nonconv Technol. 2008;3:61–64.
[6] Joshi S, Govindan P, Malshe A, Rajurkar K. Experimental characterization of dry EDM performed in a pulsating magnetic field. CIRP Annals - Manufacturing Technology. 2011; 60: 239–242.
[7] Preetkanwal SB, Sarabjeet SS,
Payal HS, Sandeep K. Magnetic Field Influence on Surface Modifications in Powder Mixed EDM. Silicon. 2018;11:415-423.
[8] Kolli M. Influence of span 20 surfactant and graphite powder added in dielectric fluid on EDM of titanium alloy. Bonfring Int. J. Ind. Eng. Manag. Sci. 2014; 4:62–67.
[9] Ishfaq K, Asad M, Anwar S, Pruncu CI, Saleh M, Ahmad S. A comprehensive analysis of the effect of graphene-based dielectric for sustainable electric discharge machining of Ti-6Al-4V. Materials (Basel). 2021;14:1–24.
[10] Tong H, Li Y, Wang Y. Experimental research on vibration assisted EDM of micro-structures with non-circular cross-section. Journal of Material Processing Technology. 2008;208: 289-298.
[11] Valaki JB, Rathod PP. Assessment of operational feasibility of waste vegetable oil based bio-dielectric fluid for sustainable electric discharge machining (EDM). Int. J. Adv. Manufac. Technol. 2016; 87 (5): 1509–1518.
[12] Sadagopan P, Mouliprasanth B. Investigation on the influence of different types of dielectrics in electrical discharge machining. International Journal of Advanced Manufacturing Technology. 2017; 92 (1): 277–291.
[13] Mughal MP, Farooq MU, Mumtaz J, Mia M, Shareef M, Javed M, Jamil M, Pruncu CI. Surface modification for osseointegration of Ti6Al4V ELI using powder mixed sinking EDM. Journal of the Mechanical Behavior of Biomedical Materials. 2021; 13: 104-145.
[14] Jeavudeen S, Siddhi J H. Powder additives influence on dielectric strength of EDM fluid and material removal. Int. J. Machining and Machinability of Materials. 2020; 22(1):47-61.
[15] Van Tao Le. The influence of additive powder on machinability and surface integrity of SKD61 steel by EDM process, Materials and Manufacturing Processes. 2021; 36(9): 1084-1098.
[16] Thiyagarajan S, Sivapirakasam SP, Mathew J, Surianarayanan M, Sundareswaran K. Influence of workpiece materials on aerosolemission from die sinking electrical dischargemachining process. Process Safety and Environmental Protection.
Process Safety and Environmental Protection. 2014; 92:739-749.
[17] Viswanth VS, Ramanujam R, Rajyalakshmi G. A Review of Research Scope on Sustainable and Eco-Friendly Electrical Discharge Machining (E-EDM). Materials Today: Proceedings. 2018;5:12525–12533.
[18]
Jose M,
Sivapirakasam SP,
Surianarayanan M. Analysis of Aerosol Emission and Hazard Evaluation of Electrical Discharge Machining (EDM) Process. Industrial Health. 2010;48:478–486.
[19] Leppert T. A Review on Ecological and Health Impacts of Electro Discharge Machining (EDM). AIP Conf. Proc., Poland 2017.
[20] Shabgard MR, Farzaneh S, Gholipoor A. Investigation of the surface integrity characteristics in wire electrical discharge machining of Inconel 617. J. Braz. Soc. Mech. Sci. Eng. 2017;39:857–864.
[21] Lee HT. Influence of EDM process parameters on surface defects and roughness. Chin. J. Mater. Sci. 1996; 28:270–278.
[22] Lee HT, Yur JP. Characteristic analysis on EDMed surfaces using Taguchi method approach. Mater. Manuf. Process. 2000;15:781–806.
)