CFD simulations of GMA welding of horizontal fillet joints based on coordinate rotation of arc models

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• 作者：Ligang Wu ; Jason Cheon ; Degala Venkata Kiran ; Suck-Joo Na ; ^{sjoona@kaist.ac.kr" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Gas metal arc welding ; Horizontal fillet joint ; Welding simulation ; Coordinate rotation ; Computational fluid dynamics ; Volume of fluid
• 刊名：Journal of Materials Processing Technology
• 出版年：2016
• 出版时间：May 2016
• 年：2016
• 卷：231
• 期：Complete
• 页码：221-238
• 全文大小：4969 K

文摘

This study conducted both experiments and simulations of gas metal arc welding of horizontal fillet joints with different welding speeds and wire feed rates. Front and side arc images were respectively captured by a CCD camera placed in front of the workpiece and beside it in each experiment. The arc models, including surface heat flux, electromagnetic force, arc pressure and drag force, were formulated in a rotated (x′–y′–z′) coordinate system whose z′-axis was consistent with the arc axis. A higher welding speed made the arc behaviors less stable and may induce undercut on the vertical plate, whereas a higher wire feed rate enhanced the stability of arc behaviors. The arc images were analyzed to determine the effective arc radii of the arc models by applying both the Abel inversion technique and Fowler–Milne method. The radial distance, vertical distance and material thickness were calculated respectively to approximate the electromagnetic force distributions, and the resultant electromagnetic force distributions were analyzed in details. The resultant arc models were subsequently used to simulate each welding experiment. The molten pool behaviors by different welding speeds and wire feed rates were compared and analyzed, and the simulation models were verified by comparing the experimental and simulation results.