Dynamic Simulation of Metal Transfer in GMAW - Part 2 : Short-Circuit Transfer Mode

S. K. CHOI; S. H. KO; C. D. YOO; Y.-S. KIM

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Dynamic Simulation of Metal Transfer in GMAW - Part 2 : Short-Circuit Transfer Mode

机译：GMAW中金属转移的动态模拟-第2部分：短路转移模式

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Short-circuit transfer is simulated dynamically by adopting the Volume of Fluid (VOF) method to analyze the effects of welding parameters on metal transfer. Appropriate initial and boundary conditions are imposed to simulate short-circuit transfer. The free surface profiles, pressure and velocity distributions are computed numerically during short-circuit transfer. The effects of the welding current, drop volume, contact area and wire feed rate on metal transfer are analyzed through variations of the pinch radius and break-up time. In the early stage of transfer, the molten metal in the bridge is transferred to the weld pool mainly due to the capillary pressure. The electromagnetic force becomes a dominant factor in the later stages of transfer. The effects of a current waveform on the characteristics of the metal transfer also are simulated.

机译：通过采用流体体积（VOF）方法来动态模拟短路传递，以分析焊接参数对金属传递的影响。施加适当的初始条件和边界条件以模拟短路传递。自由表面轮廓，压力和速度分布在短路传递过程中通过数值计算。通过收缩半径和断开时间的变化，分析了焊接电流，焊滴量，接触面积和送丝速率对金属转移的影响。在转移的早期阶段，桥中的熔融金属主要由于毛细管压力而转移到焊池中。电磁力成为传输后期的主要因素。还模拟了电流波形对金属转移特性的影响。

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来源
《Welding Journal》 |1998年第1期|p.45S-51S|共7页
作者
S. K. CHOI; S. H. KO; C. D. YOO; Y.-S. KIM;
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作者单位

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类焊接、金属切割及金属粘接;
关键词
dynamic simulation; short-circuit transfer; VOF method; free surface profile; capillary pressure; electromagnetic force;

机译：动态仿真短路传递VOF法自由表面轮廓毛细压力电磁力;
入库时间 2022-08-18 00:40:37

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1. Dynamic Simulation of Metal Transfer in GMAW, Part 1: Globular and Spray Transfer Modes [J] . S. K. CHOI, C. D. YOO, Y.-S. KIM Welding Journal . 1998,第1期

机译：GMAW中金属转移的动态模拟，第1部分：球形和喷雾转移模式
2. Improving the dynamic metal transfer model of gas metal arc welding (GMAW) process [J] . Tipi A. R. Doodman, Sani S. K. Hosseini, Pariz N. The International Journal of Advanced Manufacturing Technology . 2015,第1a4期

机译：改进气体保护金属电弧焊（GMAW）工艺的动态金属转移模型
3. Dynamic simulation of short-circuiting transfer in GMAW based on the "mass-spring" model [J] . Wang Ying, Lu Xiaoqing, Jing Hongyang The International Journal of Advanced Manufacturing Technology . 2016,第1a4期

机译：基于“质量弹簧”模型的GMAW短路传递的动态仿真
4. Modeling Simulation of Hybrid Model for the Short-Circuit Mode of Transfer in GMAW Systems [C] . Manas Kr. Bera International Conference on Intelligent Autonomous Systems . 2018

机译：GMAW系统中短路传递方式的混合模型建模仿真
5. Numerical Simulation of Light Induced Charge Transfer Dynamics across Metal-Molecule Junctions [D] . Hu, Zixuan 2013

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6. Molecular dynamics simulations of nonpolarizable inorganic salt solution interfaces: NaCl NaBr and NaI in transferable intermolecular potential 4-point with charge dependent polarizability (TIP4P-QDP) water [O] . Brad A. Bauer, Sandeep Patel -1

机译：不可极化的无机盐溶液界面：NaClNaBr和NaI在可转移的分子间电势4点中具有电荷依赖性极化率（TIP4P-QDP）的分子动力学模拟
7. Modelagem empírica da transferência goticular projetada em processos de soldagem GMAW Empirical modeling of projected spray transfer in GMAW processes [O] . Jesús Emilio Pinto Lopera, Sadek C. Absi Alfaro, José Mauricio S. T. Motta 2012

机译：GmaW焊接过程中预测的液滴转移经验模型GmaW过程中预计喷雾转移的经验模型
8. Detection of Metal-Transfer Mode in GMAW (Gas-Metal-Arc Welding) [R] . Johnson, J. A. , Carlson, N. M. , Smartt, H. B. 1989

机译：GmaW（气体 - 金属 - 电弧焊）中金属转移模式的检测

Dynamic Simulation of Metal Transfer in GMAW - Part 2 : Short-Circuit Transfer Mode

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