Transmission of {332}<113> twins across grain boundaries in a metastable beta-titanium alloy

Lin, Fengxiang; Marteleur, Matthieu; Jacques, Pascal; Delannay, Laurent

doi:10.1016/j.ijplas.2018.02.012

Transmission of {332}<113> twins across grain boundaries in a metastable beta-titanium alloy

Lin, Fengxiang

;

Marteleur, Matthieu

;

Jacques, Pascal

;

Delannay, Laurent

(2018) International Journal of Plasticity — Vol. 105, p. 195-210 (2018)

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Authors

Lin, FengxiangUCLouvain
Author
Marteleur, MatthieuUCLouvain
Author
Jacques, PascalUCLouvain
Author
Delannay, LaurentUCLouvain
Author

Abstract

Plastic deformation by dislocation slip and twinning is investigated in a metastable body centered cubic Ti-Mo alloy. Experimental crystal orientation maps show twin lamellae connected across grain boundaries, especially when they host low angle misorientation angles. A three-dimensional crystal plasticity based finite element model (CPFEM) is used to predict internal stresses due to deformation twinning. It is found that twin transmission across grain boundaries relaxes the strong back-stresses at the twin tip more than dislocation slip does. CPFEM predictions also indicate that the forward-stresses, which promote twinning in the adjacent grain, depend not only on the crystal misorientation angle but also on the misorientation axis, and the inclination of the grain boundary plane.

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Lin, F., Marteleur, M., Jacques, P., & Delannay, L. (2018). Transmission of {332}<113> twins across grain boundaries in a metastable beta-titanium alloy. International Journal of Plasticity, 105, 195-210. https://doi.org/10.1016/j.ijplas.2018.02.012 (Original work published 2018)