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Abstract
The objective of this work is to develop a numerical model of the resistance spot welding process with a flat cylindricallower electrode, enabling to predict accurately the spot weld geometry development. A 2D axisymmetric electro-thermo-mechanical finite element (FE) model is developed to study the effect of spot welding parameters on nugget size using ANSYS commercial software package. The nugget formation processes at the various welding conditions were investigated by both experimental measurement and FEM simulation.In order to improve the accuracy, temperature dependent properties of material are taken into account during the simulation. Experiments were carried out to verify the preciseness of simulation. Two different thicknesses of austenitic stainless steel sheets were used in the study. The FE predicted weld nugget sizes agreed well with the experimental results. Overall, the present work indicated that finite element analysis can be very useful as an off-line observation tool to estimate the influence of welding parameters on the welding quality and to predict or improve the welding quality.
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