International Journal of Production Engineering

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Electrical Discharge Face Grinding (EDFG) prepare has been produced for machining materials that are hard to machine by making sparkle between face of circle shape turning device cathode and workpiece. The pivot of circle shape device cathode about vertical hub enhances material evacuation rate (MRR) and normal surface harshness (ASR) in view of compelling flushing of working hole. This paper shows the impact of information process parameters of EDFG, for example, release current, pulse on-time and pulse off-time, and grind wheel speed on MRR, TWR and ASR amid machining of Tungsten Copper. This has been finished with the assistance of a copper tool terminal with the help of Taguchi Analysis.

P. Koshy, V.K. Jain, G.K. Lal. Experimental investigations into electrical discharge machining with a rotating disk electrode, J Precis Eng.

H.R. Shih, K.M. Shu. A study of electrical discharge grinding using a rotary disk electrode.

J.S. Soni, G. Chakraverti. Machining characteristics of Titanium with rotary electro- discharge machining.

B. Mohan, A. Rajadurai, K.G. Satyanarayana. Effect of sic and rotation of electrode on electric discharge machining of Al-sic composite.

R. Fujun, H. Dechen, W. Dianjun. Analysis of motion laws of machining non-sphere by EDM with rotary electrode.

M.M. Rahman, M. Ashikur Rahman Khan. Optimization of Machining Parameters on Tool Wear Rate of Ti-6Al-4V through EDM using Copper Tungsten Electrode.

A.b Singh, P. Kumar. Process Optimization for Electro-Discharge Face grinding of Metal Matrix Composites.

Hascalık. Ulascaydas: Electrical discharge machining of tungsten copperalloy (Ti–6Al–4V).

A.A. Khan. Electrode wear and material removal rate during EDM of aluminum and mild steel using copper and brass electrodes.

P. Govindan, S. Joshi. Experimental characterization of material removal in dry electrical discharge face grinding.

K.D. Chattopadhyay, S. Verma. Development of empirical model for different process parameters during rotary electrical discharge machining of copper–steel.