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Microstructural analyses of aluminum–magnesium–silicon alloys welded by pulsed Nd: YAG laser welding 被引量:4
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作者 hossain ebrahimzadeh Hassan Farhangi +1 位作者 Seyed Ali Asghar Akbari Mousavi Arman Ghahramani 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2020年第5期660-668,共9页
Revealing grains and very fine dendrites in a solidified weld metal of aluminum–magnesium–silicon alloys is difficult and thus,there is no evidence to validate the micro-and meso-scale physical models for hot cracks... Revealing grains and very fine dendrites in a solidified weld metal of aluminum–magnesium–silicon alloys is difficult and thus,there is no evidence to validate the micro-and meso-scale physical models for hot cracks. In this research, the effect of preheating on the microstructure and hot crack creation in the pulsed laser welding of AA 6061 was investigated by an optical microscope and field emission electron microscopy. Etching was carried out in the gas phase using fresh Keller’s reagent for 600 s. The results showed that the grain size of the weld metal was proportional to the grain size of the base metal and was independent of the preheating temperature. Hot cracks passed the grain boundaries of the weld and the base metal. Lower solidification rates in the preheated samples led to coarser arm spacing;therefore, a lower cooling rate. Despite the results predicted by the micro and meso-scale models, lower cooling rates resulted in increased hot cracks. The cracks could grow in the weld metal after solidification;therefore, hot cracks were larger than predicted by the hot crack prediction models. 展开更多
关键词 ETCHING technique laser welding inter-dendritic SPACING GRAIN size aluminum–magnesium–silicon alloys hot crack formation model
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