R. Keivani scite author profile

Friction stir welding (FSW) as an efficient solid state joining process has numerous applications in industries. Temperature distribution analysis through simulation not only brings the possibility to characterize the microstructure of different zones, but also enables one to save cost and energy as optimum welding variables are obtained with less concern. In the present study, the temperature distribution during the friction stir welding (FSW) process of AA6061-T6 was evaluated using finite element method (FEM). Since experimental measurements cannot be readily made in the weld region, it is difcult to understand physics in the stir zone of the welds without simulation. Abaqus software was applied to model the parts and simulate the process of welding, while Johnson-Cook law utilized to evaluate the effect of strain rate and generated heat. FE-results were verified by experimental results. The comparisons revealed a good compatibility between the results. The effect of probe shape on temperature distribution was also studied. It was found that spherical pins result in the highest temperatures at workpieces with respect to cylindrical and tapered pins. Additionally, it was concluded that more heat is generated in workpieces as pin angle increases.

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Predicting residual stresses and distortion during multisequence welding of large size structures using FEM

Keivani

Jahazi

Tan

et al. 2014

Int J Adv Manuf Technol

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R. Keivani

Effects of pin angle and preheating on temperature distribution during friction stir welding operation

Thermal analysis of friction stir welding process and investigation into affective parameters using simulation

Predicting residual stresses and distortion during multisequence welding of large size structures using FEM

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