
Simulation Study on Gap Flow Field in EDM Micro-hole Machining Based on Gas-liquid-solid Three-phase Flow
Author(s) -
Yu Liu,
Chuangye Liu,
Wenchao Zhang,
Shengfang Zhang,
Fujian Ma,
Dapeng Yang,
Zhihua Sha
Publication year - 2019
Publication title -
iop conference series. materials science and engineering
Language(s) - English
Resource type - Journals
eISSN - 1757-899X
pISSN - 1757-8981
DOI - 10.1088/1757-899x/692/1/012033
Subject(s) - fluent , bubble , mechanics , debris , flushing , materials science , debris flow , flow (mathematics) , jet (fluid) , electrical discharge machining , field (mathematics) , machining , mechanical engineering , computational fluid dynamics , engineering , metallurgy , physics , meteorology , mathematics , pure mathematics , medicine , endocrinology
In the process of micro-hole machining in EDM, if the debris and bubbles are not removed from the gap flow field, the concentration of debris and bubbles will increase, which will cause arcing discharge and seriously affect the processing efficiency and surface quality. In this paper, the geometric model of three-dimensional cylindrical gap flow field was established. The influence of bubble generation on the gap flow field and the debris under single pulse discharge condition was analyzed by Fluent. Then using the secondary development function of Fluent, the process of the debris and bubble on the bottom surface is continuously generated and the influence of bubble on the movement of debris under continuous discharge conditions were simulated and analyzed. Finally, by considering side flushing, the motion process of bubbles and debris under the conditions of flushing was analyzed.