2015
DOI: 10.1007/s11661-015-2906-4
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Optimization of Laser Keyhole Welding Strategies of Dissimilar Metals by FEM Simulation

Abstract: Laser keyhole welding of dissimilar metals has been simulated to study the effect of welding strategies (laser beam displacements and tilts) and combination of metals to be welded on final quality of the joints. Molten pool geometry and welding penetration have been studied but special attention has been paid to final joint material properties, such as microstructure/phases and hardness, and especially to the residual stress state because it greatly conditions the service life of laser-welded components. For a… Show more

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Cited by 5 publications
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“…In a more exhaustive analysis, it also allows us to find defects, although there are other more suitable methods. In Figure 24a-c, montages of photographs taken under the microscope with 50 times magnification of the cross-section of equivalent beads from the study of weldability between dissimilar metals with the LBW process are presented, which presents less extensive HAZs, which was expected due to less energetic processes, as seen in [42]. In a first analysis of welding quality, visual inspection and the distribution of resistance and hardness results allow important conclusions to be drawn.…”
Section: Micrographic Analysismentioning
confidence: 99%
“…In a more exhaustive analysis, it also allows us to find defects, although there are other more suitable methods. In Figure 24a-c, montages of photographs taken under the microscope with 50 times magnification of the cross-section of equivalent beads from the study of weldability between dissimilar metals with the LBW process are presented, which presents less extensive HAZs, which was expected due to less energetic processes, as seen in [42]. In a first analysis of welding quality, visual inspection and the distribution of resistance and hardness results allow important conclusions to be drawn.…”
Section: Micrographic Analysismentioning
confidence: 99%