Crystallographic-orientation-dependent unconventional twinning pathway at the crack tip of body-centered cubic tantalum

ABSTRACT

Anti-twin has been experimentally observed in body-centered cubic nanopillars, which naturally raises the reconsideration of twinning pathways at the crack tips. Using molecular dynamics simulations, we find that shuffling anti-twinning and twinning pathways appear simultaneously at the $\left(01\overline{1}\right)\left[011\right]$ crack tip; while only twinning pathway appears at the $\left(010\right)\left[101\right]$ crack tip. By analysing the shear stress distribution of the two crack models, we reveal that the specific twinning pathway is determined by the direction relationship between the anti-twinning/twinning slip system and the butterfly-like shear stress fields. This study deepens our understanding of anti-twin and extends the knowledge about the twin formation mechanisms at the crack tips of body-centered cubic metals.

GRAPHICAL ABSTRACT

KEYWORDS:

• Body-centered-cubic Ta
• crack tip
• anti-twinning
• twinning
• molecular dynamics simulation

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

This work is financially supported by the Natural Science Foundation of China (grant number 11875015) and the National MCF Energy R&D Program of China (grant number 2018YFE0308101).