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This paper utilizes the multi-field coupling theory to conduct numerical simulation for the electrolyte flow state between
the anode and cathode of ELID (Electrolytic In-process Dressing) - ultrasound dressing system. The simulation results
show that this theory is an effective solution to the electrolyte’s uneven distribution problem of traditional ELID
dressing, thereby the uniform electrolysis on the grinding wheel surface enabling the oxide film to cover the entire
surface. In addition, as the local vibration of the electrolyte caused by the ultrasonic vibration is conductive for the
updating of ion concentration reacting around the electrolyte as well as the acceleration of the process of the electrode
reaction. This method is suitable for ultra-precision grinding as well as the high-speed and efficient grinding.
JiCai Kuai
"Research on the ELID-ultrasound dressing technology based on multi-field coupling theory", Proc. SPIE 8762, PIAGENG 2013: Intelligent Information, Control, and Communication Technology for Agricultural Engineering, 87621V (19 March 2013); https://doi.org/10.1117/12.2019755
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JiCai Kuai, "Research on the ELID-ultrasound dressing technology based on multi-field coupling theory," Proc. SPIE 8762, PIAGENG 2013: Intelligent Information, Control, and Communication Technology for Agricultural Engineering, 87621V (19 March 2013); https://doi.org/10.1117/12.2019755