Ultra-light Mg-Li alloy with high modulus prepared by cold metal transfer-based directed energy deposition

In this study, the microstructure and properties of a Mg-Li alloy prepared by cold metal transfer-based directed energy deposition using electric arc (CMT DED-arc) were investigated.The as-deposited alloy under different process parameters, as well as the alloy under various processing or heat treat...

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Bibliographic Details
Published in:Additive manufacturing 2025-01, Vol.97, p.104617, Article 104617
Main Authors: Tao, Xinmiao, Sun, Jiawei, Huang, Yuchuan, Yu, Jiaxin, Guo, Youjie, Xu, Yangyang, Yi, Lingfan, Wu, Guohua, Liu, Wencai
Format: Article
Language:English
Subjects:
Cold metal transfer
Directed energy deposition
Mechanical properties
Mg-Li alloy
Microstructural evolution
Process parameters
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Summary:In this study, the microstructure and properties of a Mg-Li alloy prepared by cold metal transfer-based directed energy deposition using electric arc (CMT DED-arc) were investigated.The as-deposited alloy under different process parameters, as well as the alloy under various processing or heat treatment states, were evaluated. The results indicate that the designed alloy composition exhibits a wide process parameter window employing CMT DED-arc method. The optimal parameters were determined to be wire feed speed of 7 m/min and travel speed of 0.8 m/min, providing the best balance of mechanical properties, surface quality, and structural integrity. Variations in microstructure within different positions of as-deposited thin wall are ascribed to the effect of thermal cycle. The as-deposited alloy achieved excellent comprehensive performance (ultimate tensile strength (UTS)= 224 MPa, elongation= 13.2 %, Young’s modulus= 52 GPa, density= 1.539 g/cm³ ). Furthermore, the strength of deposition-solution-treated state exceed that of as-extruded state, reaching UTS of 287 MPa. This work provides insights into optimizing heat input and thermal cycle to improve performance of CMT DED-arc fabricated alloys. [Display omitted] •The tested Mg-Li alloy thin wall was fabricated by CMT-WAAM for the first time and achieved excellent comprehensive performance.•Effect of process parameters on microstructural variation and properties of the Mg-Li alloy were systematically investigated.•The mechanical properties of the as-deposited alloy were further improved than that of the as-cast state, its UTS reached 287 MPa.
ISSN:2214-8604
DOI:10.1016/j.addma.2024.104617