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The Effect of Groove Shape on Molten Metal Flow Behaviour in Gas Metal Arc Welding

Amin Ebrahimi, Aravind Babu, Chris R. Kleijn, M. J. M. Hermans, I. M. Richardson

2021Materials26 citationsDOIOpen Access PDF

Abstract

One of the challenges for development, qualification and optimisation of arc welding processes lies in characterising the complex melt-pool behaviour which exhibits highly non-linear responses to variations of process parameters. The present work presents a computational model to describe the melt-pool behaviour in root-pass gas metal arc welding (GMAW). Three-dimensional numerical simulations have been performed using an enhanced physics-based computational model to unravel the effect of groove shape on complex unsteady heat and fluid flow in GMAW. The influence of surface deformations on the magnitude and distribution of the heat input and the forces applied to the molten material were taken into account. Utilising this model, the complex thermal and fluid flow fields in melt pools were visualised and described for different groove shapes. Additionally, experiments were performed to validate the numerical predictions and the robustness of the present computational model is demonstrated. The model can be used to explore the physical effects of governing fluid flow and melt-pool stability during gas metal arc root welding.

Topics & Concepts

Groove (engineering)Materials scienceGas metal arc weldingMetallurgyWeldingMolten metalArc (geometry)Flow (mathematics)MetalComposite materialSubmerged arc weldingArc weldingMechanicsMechanical engineeringEngineeringPhysicsWelding Techniques and Residual StressesAdditive Manufacturing Materials and ProcessesAdvanced Welding Techniques Analysis
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