The dependence of strength and strain hardening on dislocation-interface interaction in dual-phase titanium alloys

The slip transmission across an interface is essential for the mechanical properties of dual-phase alloys like Ti-6Al-4 V. However, the correlation between the dislocation-interface interaction and the strength and strain hardening anisotropy remains unclear due to the lack of direct experimental ev...

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Bibliographic Details
Published in:Scripta materialia 2024-11, Vol.252, p.116249, Article 116249
Main Authors: Wei, Langlang, Miao, Bin, Liu, Zheng, Su, Huhu, Ming, Kaisheng, Zheng, Xiaodong, Wang, Fucheng, Zheng, Shijian
Format: Article
Language:English
Subjects:
Dislocation
Interface
Micropillar compression
Strain hardening
Titanium alloys
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Summary:The slip transmission across an interface is essential for the mechanical properties of dual-phase alloys like Ti-6Al-4 V. However, the correlation between the dislocation-interface interaction and the strength and strain hardening anisotropy remains unclear due to the lack of direct experimental evidence. Via in situ scanning electron microscopy micropillar compression, prismatic plane dislocations were preferentially activated and interacted with an individual α/β interface at different angles. Based on transmission electron microscopy characterization, this study suggests that α/β interface shows a more pronounced strengthening effect when the coordinated slip system is more difficult to be activated and the slip deflection angle is larger. Differently, its higher strain hardening rate is initially determined by the larger Burger vector magnitude of interfacial residual dislocation after slip transmission. These results provide a unique basis for understanding the contribution of the interface to the mechanical properties of dual-phase alloys. [Display omitted]
ISSN:1359-6462
1872-8456
DOI:10.1016/j.scriptamat.2024.116249