Mohammad Yeakub ALI, Mohamed Abd RAHMAN, Muhamad Faizal Mohd KARIN, Mohd Saifuddin AMINDDIN, Seri Rahayu YA’AKUB, Muataz Hazza Al HAZZA, Abdul Md MAZID. Micro electro discharge milling of titanium super alloy: Analysis of material removal rate and surface roughness[J]. Journal of Advanced Manufacturing Science and Technology . DOI: 10.51393/j.jamst.2025005
Citation: Mohammad Yeakub ALI, Mohamed Abd RAHMAN, Muhamad Faizal Mohd KARIN, Mohd Saifuddin AMINDDIN, Seri Rahayu YA’AKUB, Muataz Hazza Al HAZZA, Abdul Md MAZID. Micro electro discharge milling of titanium super alloy: Analysis of material removal rate and surface roughness[J]. Journal of Advanced Manufacturing Science and Technology . DOI: 10.51393/j.jamst.2025005

Micro electro discharge milling of titanium super alloy: Analysis of material removal rate and surface roughness

  • This paper presents the machinability of titanium super alloy Ti-6Al-4V using micro electro discharge milling (Micro-ED Milling). Material removal rate (MRR), tool wear rate (TWR) and surface roughness were analysed using L18 orthogonal arrays of experiment. Based on analysis of variance (ANOVA) and signal-to-noise (S/N) ratio, empirical models have been developed. Optimum values of micro-ED milling parameters to achieve maximum MRR, minimum TWR and minimum surface roughness (Ra and Ry) were obtained. The optimum parameters were found to be 100 nF capacitance and 80 V gap voltage which leveraged 57.8 µg/s MRR and 0.96 μg/s TWR with 90% desirability. In addition, the optimum parameters for the minimum surface roughness were found to be 1 nF capacitance and 80 V gap voltage which produced 0.086 µm Ra and 0.63 μm Ry with 99% desirability. Experimental studies were conducted using optimum micro-ED milling parameters to validate the results. It was found that the predicted values were within 10% of the experimental values.
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