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Full Length Article | Open Access

From macro-, through meso- to micro-scale: Densification behavior, deformation response and microstructural evolution of selective laser melted Mg-RE alloy

Cheng Changa,c( )Guangrui Yaoa,bSophie C. CoxcXiaofeng ZhangaLiyuan Shengd,f( )Min LiuaWeili ChengbYang LueXingchen Yana( )
Institute of New Materials, Guangdong Academy of Sciences, Guangdong-Hong Kong Joint Laboratory of Modern Surface Engineering Technology, Guangdong Provincial Key Laboratory of Modern Surface Engineering Technology, Guangzhou, Guangdong, 510651, China
School of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan, 030024, China
School of Chemical Engineering, University of Birmingham, Edgbaston, Birmingham, B15 2TT, UK
Shenzhen Institute, Peking University, Shenzhen, 518057, China
Department of Mechanical Engineering, The University of Hong Kong, Hong Kong, China
PKU-HKUST ShenZhen-HongKong Institution, Shenzhen, 518057, China

Peer review under the responsibility of Chongqing University.

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Abstract

To clarify the densification behavior, deformation response and strengthening mechanisms of selective laser melted (SLM) Mg-RE alloys, this study systematically investigates a representative WE43 alloy via advanced material characterization techniques. A suitable laser output mode fell into the transition mode, allowing for the fabrication of nearly full-density samples (porosity = 0.85 ± 0.021%) with favorable mechanical properties (yield strength=351 MPa, ultimate tensile strength = 417 MPa, the elongation at break = 6.5% and microhardness = 137.9 ± 6.15 HV0.1) using optimal processing parameters (P = 80 W, v = 250 mm/s and d = 50 µm). Viscoplastic self-consistent analysis and transmission electron microscopy observations reveal that the plastic deformation response of the SLM Mg-RE alloys is primarily driven by basal <a> and prismatic <a> slips. Starting from a random texture before deformation (maximum multiple of ultimate density, Max. MUD = 3.95), plastic stretching led the grains to align with the Z-axis, finally resulting in a {0001}<1010> texture orientation after fracture (Max. MUD = 8.755). Main phases of the SLM state are mainly composed of α-Mg, Mg24Y5 and β’-Mg41Nd5, with an average grain size of only 4.27 µm (about a quarter of that in the extruded state), resulting in a favorable strength-toughness ratio. Except for the nano-β’ phase and semi-coherent Mg24Y5 phase (mismatch = 16.12%) around the grain boundaries, a small amount of nano-ZrO2 and Y2O3 particles also play a role in dispersion strengthening. The high mechanical properties of the SLM state are chiefly attributed to precipitation hardening (44.41%), solid solution strengthening (34.06%) and grain boundary strengthening (21.53%), with precipitation hardening being predominantly driven by dislocation strengthening (67.77%). High-performance SLM Mg-RE alloy components were manufactured and showcased at TCT Asia 2024, receiving favorable attention. This work underscores the significant application potential of SLM Mg-RE alloys and establishes a strong foundation for advancing their use in the biomedical fields.

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Journal of Magnesium and Alloys
Pages 3947-3963

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Cite this article:
Chang C, Yao G, Cox SC, et al. From macro-, through meso- to micro-scale: Densification behavior, deformation response and microstructural evolution of selective laser melted Mg-RE alloy. Journal of Magnesium and Alloys, 2025, 13(8): 3947-3963. https://doi.org/10.1016/j.jma.2024.12.018

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Received: 19 November 2024
Revised: 12 December 2024
Accepted: 22 December 2024
Published: 17 January 2025
© 2025 Chongqing University

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)