Measurement and optimization of power consumption and aerosol emissions in magnetic field assisted electrical discharge machining of Inconel 718

Processing of Inconel 718 is still big challenge for manufactures to process with better machining performance and less
environmental effect. Therefore, the present study was aimed to develop a sustainable magnetic field-assisted electrical
discharge machining (MEDM) for machining of Inconel 718 to reduce power consumption, aerosol emissions and surface
defects. Experiments were conducted at different levels of current, pulse on time, pulse off time and voltage with and
without magnetic field assistance and the experimental results for power consumption, aerosol emissions, metal removal
rate (MRR) and surface roughness were collected and analyzed. The power consumption, surface roughness, recast layers,
microcracks, microvoids and microglobules were found to be reduced with improved MRR in the MEDM. A hybrid
teaching learning-based optimization algorithm was proposed and optimized the process parameters in MEDM. With the
proposed methodology, the MRR, surface roughness, power consumption and aerosol emissions reached 82%, 80%, 87%
and 68% of the specified targets, respectively. The optimum process parameters were 4 A of current, 106 ls of pulse on
time, 79 ls of pulse off time, 38 V of voltage