Olivier Asserin scite author profile

A 3D numerical model of Gas Tungsten Arc welding has been developed to predict weld bead shape, fluid flow in the weld pool as well as thermal field in the workpiece. This model accounts for coupled electromagnetism, heat transfer and fluid flow with a moving free surface to simulate different welding positions. The solution strategy of the coupled non-linear equations that has been implemented in the Cast εM finite element code is also discussed. The capabilities of our numerical model are first assessed by comparison to experimental results. Then, as fluid flows in weld pool play a prominent role in the weld quality as well as in the final shape of the weld bead seam, the effect of various welding positions on the weld pool shape has been investigated which constitutes the main novelty of this work. The performed computations point out a strong sensitivity to gravity on the weld pool shape depending on assisting or opposing weld direction with respect to gravity. This study contribute to assess the model capabilities in providing a deeper physical insight towards a more efficient optimization of welding processes.

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Olivier Asserin

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