Numerical Simulation of Liquid-Solid Two-Phase Flow Field in Discharge Gap of High-Speed Small Hole EDM Drilling

机译：高速小孔EDM钻孔放电间隙中液固二相流场的数值模拟

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The flow field characteristics have a significant effect on the machining stability in high-speed small hole EDM drilling. Thus, Lagrangian discrete phase model (DPM) has been developed to simulate the gap liquid-solid two-phase flow field. The numerical calculation is based on the standard k-ε turbulent model, and the SIMPLEC algorithm is used in the simulation. All the governing equations are solved by software Fluent 6.2. Through numerical simulation, the pressure distribution, the velocity distribution of the dielectric liquid, traces of debris particles, and the debris particle concentration were obtained. The flow field characteristics under different pressures and drilling depths were obtained through simulations. Finally, experiments were carried out to investigate the effects of the flush velocity at exit obtained through simulation on material removal rate (MRR).

机译：流场特性对高速小孔EDM钻井的加工稳定性具有显着影响。因此，已经开发了拉格朗日离散相模型（DPM）来模拟间隙液体固体两相流场。数值计算基于标准的K-ε湍流模型，并且在模拟中使用了SimpleC算法。所有管理方程式都是通过Fluent 6.2软件解决的。通过数值模拟，得到压力分布，介电液体的速度分布，碎片颗粒的痕迹和碎屑颗粒浓度。通过模拟获得不同压力和钻井深度下的流场特性。最后，进行了实验，以研究通过模拟在材料去除率（MRR）上获得的出口处的冲洗速度的影响。

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《International Conference on Surface Finishing Technology and Surface Engineering》|2008年||共6页
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Y. Q. Wang; M. R. Cao; S. Q. Yang; W. H. Li;
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中图分类 TG506.6-53;
关键词
Small hole; EDM; Two-phase flow field; Material removal rate; Numerical simulation;

机译：小孔;EDM;两相流场;材料去除率;数值模拟;

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4. Numerical Simulation of Liquid-Solid Two-Phase Flow Field in Discharge Gap of High-Speed Small Hole EDM Drilling [C] . Y. Q. Wang, M. R. Cao, S. Q. Yang, International Conference on Surface Finishing Technology and Surface Engineering . 2008

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Numerical Simulation of Liquid-Solid Two-Phase Flow Field in Discharge Gap of High-Speed Small Hole EDM Drilling

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