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Correlation analysis of current, molten pool, and weld formation in double-pulsed variable polarity TIG welding

Zihao Jiang, Baoqiang Cong, Caiyou Zeng, Yang Qing-fu, Quan Zhang, Hong Xiao, Tiemin Zhang, Bojin Qi

2024Journal of Manufacturing Processes11 citationsDOIOpen Access PDF

Abstract

Double pulsed variable polarity tungsten inert gas (DP-VPTIG) welding is an emerging high-efficiency technology for joining medium-thick aluminum alloys . Elucidating the interrelationships among current parameters, molten pool dynamic morphology, and weld formation is critical to welding process optimization and online control. Herein, an orthogonal welding experiment was conducted using key welding current parameters as design variables. Dynamic morphological features of molten pool were quantitatively extracted by a proposed image processing method . The response models among current parameters, molten pool morphology, and weld formation were established and analyzed based on Gaussian process regression. Obtained results reveal that there is a significant positive impact of arc energy on keyhole depth. Furthermore, a strong linear relationship between keyhole depth and penetration degree was observed. With the increasing keyhole depth, the weld penetration degree increases. While the correlation between the width of molten pool and penetration degree is insignificant. There is a minimum keyhole depth that ensures efficient transfer of arc heat into the bottom of molten pool, and thus enables deep penetration welding. This work provides theoretical foundations for the optimization and online control of DP-VPTIG welding processes.

Topics & Concepts

Materials sciencePolarity (international relations)WeldingGas tungsten arc weldingCurrent (fluid)Weld poolMetallurgyComposite materialArc weldingElectrical engineeringEngineeringCellBiologyGeneticsWelding Techniques and Residual StressesAdvanced Welding Techniques AnalysisAdditive Manufacturing Materials and Processes
Correlation analysis of current, molten pool, and weld formation in double-pulsed variable polarity TIG welding | Litcius