MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL

Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma
Page No: 62-66
DOI: DOI:10.86493/OTJ.3472508
Download PDFAbstract:
An axi – symmetric three dimensional thermophysical model for the electrical discharge machining of AISI 304 was developed using finite element method and experiment on die sinking EDM have been conducted using L9 orthogonal array design using various process control parameter like voltage(V), Spark on time(Ton), Discharge current(Ip) which are varied in three different level. Material removal rate (MRR) for AISI 304 has been measured for each experimental run. Also the parametric analysis using ANSYS has been carried out by considering same process parameter to predict the MRR and result are verified with experimental investigation. The optimum values have been determined with the help of given main effect plotter and ANOVA Annexure to find out optimum value and most significant parameter which affect the MRR. Commercial grade oil has been taken as dielectric fluid. MINITAB software has been used for mathematical modeling of MRR.

Citations

APA: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma (2025). MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL. DOI: DOI:10.86493/OTJ.3472508

AMA: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma. MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL. 2025. DOI: DOI:10.86493/OTJ.3472508

Chicago: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma. "MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL." Published 2025. DOI: DOI:10.86493/OTJ.3472508

IEEE: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma, "MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL," 2025, DOI: DOI:10.86493/OTJ.3472508

ISNAD: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma. "MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL." DOI: DOI:10.86493/OTJ.3472508

MLA: Mr. Shrikant B. Sarak, Prof. S. G. Taji, A. B. Verma. "MODELLING OF ELECTRO DISCHARGE MACHINING IN AISI 304 MATERIAL." 2025, DOI: DOI:10.86493/OTJ.3472508