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Preferentially-orientated gradient precipitates enable unique strength-ductility synergy in Mg-Sn binary alloys. [Video]

Contributors

Lutong Zhou
Data Collector

Yong Sun
Data Collector

Guodong Zou
Data Collector

Haidong Hu
Data Collector

Yanhui Zhang
Data Collector

Huhu Su
Data Collector

Shijian Zheng
Data Collector

Yulong Zhu
Data Collector

Peng Chen
Data Collector

Qiuming Peng
Data Collector

Abstract

Conventional manufacturing approaches, including casting, thermal deformation and annealing, have faced great challenges in achieving both exceptional strength and ductility for Mg alloys. Herein, we report an effective strategy for simultaneously enhancing the tensile yield strength (YS = 341 ± 9.6 MPa) and elongation (EL = 15% ± 1%) of a Mg-4Sn (at.%) binary alloy at room temperature, which has been prepared by an ultrahigh-pressure treatment followed by Joule-heat treatment (UPJT). More attractively, the aging condition (80 μs, 500 Hz, 600 s) is the most time-efficient mode for aged Mg alloys. The reason is mainly associated with the presence of a unique preferentially-orientated gradient precipitate structure, as confirmed by transmission electron microscopy observations, density functional theory calculations and molecular dynamics simulations. Both experimental and theoretical results demonstrate that twin boundary-induced precipitation followed by precipitate-assisted twin boundary migration accounts for the formation of gradient precipitate structures. The fine Mg2Sn particles can effectively pin dislocation movement to enhance its strength. Comparatively, the coarse Mg2Sn particles can undergo plastic deformation and shear deformation, contributing to its high ductility. The strategy of preferentially orientated gradient structure provides a budding perspective for designing new Mg alloys with superior mechanical properties. This output file contains a video comparing the deformation behavior of three different structures under the same strain condition.

Citation

ZHOU, L., SUN, Y., ZOU, G., HU, H., ZHANG, Y., SU, H., ZHENG, S., ZHU, Y., CHEN, P., FERNANDEZ, C. and PENG, Q. [2025]. Preferentially-orientated gradient precipitates enable unique strength-ductility synergy in Mg-Sn binary alloys. [Video]. Journal of materials science and technology [online], In Press. Available from: https://doi.org/10.1016/j.jmst.2025.01.082

Acceptance Date Jan 27, 2025
Online Publication Date Apr 11, 2025
Deposit Date Apr 24, 2025
Publicly Available Date Apr 12, 2026
Publisher Elsevier
DOI https://doi.org/10.1016/j.jmst.2025.01.082
Keywords Joule-heat treatment; High-resolution TEM; Molecular dynamics; Density functional theory
Public URL https://rgu-repository.worktribe.com/output/2801520
Related Public URLs https://rgu-repository.worktribe.com/output/2801006 (Journal article)
Type of Data MP4 video
Collection Date Dec 8, 2024

Files

This file is under embargo until Apr 12, 2026 due to copyright reasons.

Contact publications@rgu.ac.uk to request a copy for personal use.



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