@article{ART002991772},
author={
Sudharsan Gunasekaran
and
Suresh Periyagounder
and
Magibalan Subramaniam
},
title={
Enhancing micromachining precision with novel electrolyte combinations: an investigation
},
journal={
Journal of Ceramic Processing Research
},
issn={1229-9162},
year={2023},
number={4},
pages={705 - 713},
doi={10.36410/jcpr.2023.24.4.705},
url={http://dx.doi.org/10.36410/jcpr.2023.24.4.705}
TY - JOUR
AU - Sudharsan Gunasekaran
AU - Suresh Periyagounder
AU - Magibalan Subramaniam
TI - Enhancing micromachining precision with novel electrolyte combinations: an investigation
T2 - Journal of Ceramic Processing Research
PY - 2023
VL - 24
IS - 4
PB - 한양대학교 청정에너지연구소
SP - 705 - 713
SN - 1229-9162
AB - Electrochemical micromachining is a non-traditional machining process used for drilling at the micro level. The process ischallenging to control due to its reliance on reaction parameters like over-cut, material removal rate, and taper. The removalrate of material (MRR) and overcut are key responses observed during the process. Recent studies have focused oninvestigating the effect of process parameters such as Electrolyte concentration, voltage, and duty cycle on electrochemicalmicromachining. Researchers have found that variations in the Electrolyte type, combination, and duty cycle can significantlyimpact material removal rate and overcut. In this work, the combination of novel electrolyte and the optimal temperature wasmaintained to carry out the experiments. The removal rate of material and overcut are critical responses observed during theprocess in which electrolyte concentration has shown to impact these responses significantly. SEM (Scanning ElectronMicroscope) images have been used to analyze the resulting drill surfaces, providing valuable insights into the microstructureand morphology of the drilled holes.
KW - EMM, L9 orthogonal array, RSM, SEM, SS316L.
DO - 10.36410/jcpr.2023.24.4.705
UR - http://dx.doi.org/10.36410/jcpr.2023.24.4.705
ER -
Sudharsan Gunasekaran
,
Suresh Periyagounder
and
Magibalan Subramaniam
(2023).
Enhancing micromachining precision with novel electrolyte combinations: an investigation.
Journal of Ceramic Processing Research,
24(4),
705 - 713.
Sudharsan Gunasekaran
,
Suresh Periyagounder
and
Magibalan Subramaniam
. 2023,
“Enhancing micromachining precision with novel electrolyte combinations: an investigation”,
vol.24,
no.4,
pp. 705 - 713.
Available from: doi:10.36410/jcpr.2023.24.4.705
Sudharsan Gunasekaran
외.
“Enhancing micromachining precision with novel electrolyte combinations: an investigation“
Journal of Ceramic Processing Research
24.4
pp. 705 - 713.
(2023): 705.
Sudharsan Gunasekaran
,
Suresh Periyagounder
,
Magibalan Subramaniam
.
Enhancing micromachining precision with novel electrolyte combinations: an investigation
Journal of Ceramic Processing Research
[Internet].
2023;
24(4),
:
705 - 713.
Available from: doi:10.36410/jcpr.2023.24.4.705
Sudharsan Gunasekaran
,
Suresh Periyagounder
and
Magibalan Subramaniam
. “Enhancing micromachining precision with novel electrolyte combinations: an investigation“
Journal of Ceramic Processing Research
24, no.4,
(2023): 705 - 713. doi: :10.36410/jcpr.2023.24.4.705