Design method of immiscible dissimilar welding (Mg/Fe) based on CALPHAD and thermodynamic modelling
Design method of immiscible dissimilar welding (Mg/Fe) based on CALPHAD and thermodynamic modelling
Joining dissimilar metals is a major challenge in joining technology; the weldability of immiscible systems is especially challenging. In this study, a design methodology for dissimilar welding is suggested. The Miedema model and Toop model are developed to calculate the thermodynamics of quaternary alloy systems (Mg-Fe-Al-Cu). Finite element modelling (FEM) of temperature fields and the calculation of phase diagrams (CALPHAD) are combined to provide prerequisite information for modelling. As a test subject, laser welded lap configuration joints of AZ31B magnesium alloy and DP590 steel with a copper coating were put into the design scheme. The interfacial elemental diffusion and formation of intermetallics (IMCs) along the interface during the welding process are predicted. This simulation design scheme predicts the interfacial reaction kinetics and identifies whether the intermediate element works or not. The effects of the Cu coating thickness on the weld constitution, interfacial microstructures and mechanical properties were studied. Cu coating promotes the weld formation fostering the metallurgical reaction of the fusion zone (FZ) with the steel brazing interface. The mechanism of interfacial reactions during the welding-brazing process has been clarified. The Vickers hardness distribution across the interface shows that the Cu-IMCs are ductile.
Zang, Chengwei
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Zhao, Xiaoye
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Xia, Hongbo
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Wen, Wei
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Tan, Zhuoming
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Tan, Caiwang
31013188-6f29-4383-8fa9-bb5844cf40ee
Rivera-Díaz-del-Castillo, Pedro E.J.
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14 June 2024
Zang, Chengwei
b5b6ec47-c741-43c2-a00d-2b0a0c3e6a8f
Zhao, Xiaoye
5a67b8d0-8f8e-4015-a6c8-6270d8c81a34
Xia, Hongbo
d32580aa-2973-417d-9a55-f64de87a300c
Wen, Wei
4bca5193-31fc-4e56-95fc-c0ffde65c0d3
Tan, Zhuoming
9e806354-e66b-4513-a274-0cf996ab0d7f
Tan, Caiwang
31013188-6f29-4383-8fa9-bb5844cf40ee
Rivera-Díaz-del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Zang, Chengwei, Zhao, Xiaoye, Xia, Hongbo, Wen, Wei, Tan, Zhuoming, Tan, Caiwang and Rivera-Díaz-del-Castillo, Pedro E.J.
(2024)
Design method of immiscible dissimilar welding (Mg/Fe) based on CALPHAD and thermodynamic modelling.
Materials and Design, 243, [113050].
(doi:10.1016/j.matdes.2024.113050).
Abstract
Joining dissimilar metals is a major challenge in joining technology; the weldability of immiscible systems is especially challenging. In this study, a design methodology for dissimilar welding is suggested. The Miedema model and Toop model are developed to calculate the thermodynamics of quaternary alloy systems (Mg-Fe-Al-Cu). Finite element modelling (FEM) of temperature fields and the calculation of phase diagrams (CALPHAD) are combined to provide prerequisite information for modelling. As a test subject, laser welded lap configuration joints of AZ31B magnesium alloy and DP590 steel with a copper coating were put into the design scheme. The interfacial elemental diffusion and formation of intermetallics (IMCs) along the interface during the welding process are predicted. This simulation design scheme predicts the interfacial reaction kinetics and identifies whether the intermediate element works or not. The effects of the Cu coating thickness on the weld constitution, interfacial microstructures and mechanical properties were studied. Cu coating promotes the weld formation fostering the metallurgical reaction of the fusion zone (FZ) with the steel brazing interface. The mechanism of interfacial reactions during the welding-brazing process has been clarified. The Vickers hardness distribution across the interface shows that the Cu-IMCs are ductile.
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Accepted/In Press date: 27 May 2024
e-pub ahead of print date: 31 May 2024
Published date: 14 June 2024
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Local EPrints ID: 492073
URI: http://eprints.soton.ac.uk/id/eprint/492073
ISSN: 0264-1275
PURE UUID: 85d48723-de90-4a6a-aa56-f31565f08f90
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Date deposited: 16 Jul 2024 16:33
Last modified: 17 Jul 2024 02:08
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Author:
Chengwei Zang
Author:
Xiaoye Zhao
Author:
Hongbo Xia
Author:
Wei Wen
Author:
Zhuoming Tan
Author:
Caiwang Tan
Author:
Pedro E.J. Rivera-Díaz-del-Castillo
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