Electrochemical machining gap prediction with multi-physics coupling model based on two-phase turbulence flow 被引量：2

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摘要 Considering the influence of hydrogen gas generated during electrochemical machining on the conductivity of electrolyte, a two-phase turbulent flow model is presented to describe the gas bubbles distribution.The k-e turbulent model is used to describe the electrolyte flow field.The Euler–Euler model based on viscous drag and pressure force is used to calculate the twodimensional distribution of gas volume fraction.A multi-physics coupling model of electric field,two-phase flow field and temperature field is established and solved by weak coupling iteration method.The numerical simulation results of gas volume fraction, temperature and conductivity in equilibrium state are discussed.The distributions of machining gap at different time are analyzed.The predicted results of the machining gap are consistent with the experimental results, and the maximum deviation between them is less than 50 lm.

作者 Yuanlong CHEN Xiaochao ZHOU Peixuan CHEN Ziquan WANG

机构地区 School of Mechanical Engineering School of Mechanical and Vehicular Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2020年第3期1057-1063,共7页 中国航空学报（英文版）

基金 funded by the National Natural Science Foundation of China(Nos.51775161 and 51775158)。

关键词 Electrochemical machining EQUILIBRIUM Machining gap prediction Multi-physics coupling Two-phase turbulent flow

分类号 TG662 [金属学及工艺—金属切削加工及机床]

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Chinese Journal of Aeronautics

2020年第3期

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