Heterogeneous structure formation of Mg alloy during direct laser deposition with dissimilar alloy

Dissimilar metal deposition of Al-Si-Mg powders on Mg-Al-Zn plate promote the formation of a heterogeneous “necklace” morphology formation via direct energy deposition surface alloying with Al-Si-Mg powder structure consisting of fine grains (FGs) at the top while columnar grains (CGs) surrounding F...

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Bibliographic Details
Published in:Materials today communications 2024-12, Vol.41, p.111071, Article 111071
Main Authors: Ouyang, Lingxiao, Xie, Xinyi, Wang, Xiaohong, Li, Hongyun, Wang, Jingfeng, Wang, Zihong, Feng, Le, Gui, Yunwei, Pan, Fusheng
Format: Article
Language:English
Subjects:
Computational thermal-fluid dynamics
Direct laser deposition
Dissimilar metal deposition
Magnesium alloys
Mass transport
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Summary:Dissimilar metal deposition of Al-Si-Mg powders on Mg-Al-Zn plate promote the formation of a heterogeneous “necklace” morphology formation via direct energy deposition surface alloying with Al-Si-Mg powder structure consisting of fine grains (FGs) at the top while columnar grains (CGs) surrounding FGs at the bottom. Al-rich distribution within FGs, which are characterized by random texture as well, indicates that the Al-Si-Mg powders promote heterogeneous nucleation of the Mg matrix at the upper melt region (MR). Similar with the strong epitaxial growth in non-dissimilar-metal-deposited Mg-Al-Zn plate, the CGs dominate at the MR bottom and possess grain orientations close to those of the base material. By computational thermal-fluid dynamics simulation, a higher ratio of Al-Si-Mg at higher temperatures and a higher ratio of Mg-Al-Zn at lower temperatures together results in a relatively weak thermal convection, causing difficult mass transportation of Al-Si-Mg towards the MR bottom and thus the formation of residual bottom CGs. [Display omitted] •A “necklace” morphology formation of Mg-Al-Zn alloys via DED surface alloying.•Dissimilar metal deposition of Al-Si-Mg promotes α-Mg heterogeneous nucleation.•CFD is used to analyze effects of thermal convection on Al-Si-Mg mass transport.•Weak thermal convection causes difficult mass transport of Al-Si-Mg within melt.
ISSN:2352-4928
2352-4928
DOI:10.1016/j.mtcomm.2024.111071