Bimodal microstructure – A feasible strategy for high-strength and ductile metallic materials

Introducing a bimodal grain-size distribution has been demonstrated an efficient strategy for fabricating high-strength and ductile metallic materials, where fine grains provide strength, while coarse grains enable strain hardening and hence decent ductility. Over the last decades, research activiti...

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Bibliographic Details
Published in:Journal of materials science & technology 2018-02, Vol.34 (2), p.257-264
Main Authors: Zha, Min, Zhang, Hong-Min, Yu, Zhi-Yuan, Zhang, Xuan-He, Meng, Xiang-Tao, Wang, Hui-Yuan, Jiang, Qi-Chuan
Format: Article
Language:English
Subjects:
Bimodal microstructure
Mechanical milling
Nanocrystalline and ultrafine-grained metals
Severe plastic deformation
Strength and ductility
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Summary:Introducing a bimodal grain-size distribution has been demonstrated an efficient strategy for fabricating high-strength and ductile metallic materials, where fine grains provide strength, while coarse grains enable strain hardening and hence decent ductility. Over the last decades, research activities in this area have grown enormously, including interesting results on fcc Cu, Ni and Al-Mg alloys as well as steel and Fe alloys via various thermo-mechanical processing approaches. However, investigations on bimodal Mg and other hcp metals are relatively few. A brief overview of the available approaches based on thermo-mechanical processing technology in producing bimodal microstructure for various metallic materials is given, along with a summary of unusual mechanical properties achievable by bimodality, where focus is placed on the microstructure-mechanical properties and relevant mechanisms. In addition, key factors that influencing bimodal strategies, such as compositions of starting materials and processing parameters, together with the challenges this research area facing, are identified and discussed briefly.
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2017.11.018