Transient Simulation of Multi-Physical Field Coupling in Electrochemical Machining Microstructure

Abstract

Microstructural electrochemical machining involves electric field, temperature field and gas-liquid two-phase flow field with complex coupling relationship. At present, there is no mature technology that can control processes such as ion exchange and liquid-phase mass transfer in the machining. Currently, there is no mature technology to control ion exchange and liquid phase mass transfer etc. in the machining. Therefore, in order to better understand the role of multi-field coupling and machining mechanism in microstructural electrochemical machining, a simulation study based on the multi-physics field coupling model is carried out to reveal the multi-physics field distribution law, which provides a guide for the subsequent research.