Quasicontinuum study of the shear behavior of defective tilt grain boundaries in Cu

Autor: Ludovic Noels, Frederic Sansoz, Vincent Péron-Lührs
Rok vydání: 2014
Předmět:
Zdroj: Acta Materialia. 64:419-428
ISSN: 1359-6454
DOI: 10.1016/j.actamat.2013.10.056
Popis: Atomistic simulations using the quasicontinuum method are used to study the role of vacancy defects and angstrom-scale voids on the mechanical behavior of five tilt bicrystals containing grain boundaries (GBs) that have been predicted to exhibit characteristic deformation processes of nanocrystalline and nanotwinned metals: GB-mediated dislocation emission, interface sliding and shear-coupled GB migration. We demonstrate that such nanoscale defects have a profound impact on interfacial shear strength and underlying deformation mechanisms in copper GBs due to void-induced local stresses. In asymmetric high- and low-angle GBs, we find that voids become preferential sites for dislocation nucleation when the void size exceeds 4 A. In symmetric Σ 9 ( 221 ) GBs prone to sliding, voids are shown to shield the local shear stress, which considerably reduces the extent of atom shuffling at the interface. In symmetric Σ 5 ( 210 ) and Σ 27 ( 115 ) GBs, we find that the effect of voids on shear-coupled GB migration depends on the GB tilt direction considered, as well as on the size and number of voids. Remarkably, large voids can completely abate the GB migration process in Σ 27 ( 115 ) GBs. For all GB types, the interfacial shear strength is shown to decrease linearly as the volume fraction of voids at the interface increases; however, this study also suggests that this decrease is much more pronounced in GBs deforming by sliding than by dislocation nucleation or migration, owing to larger void-induced stresses.
Databáze: OpenAIRE
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