Mapping dislocation nucleation behavior from bimetal interfaces

Mapping dislocation nucleation behavior from bimetal interfaces

Interfaces between two dissimilar metals have been observed to exhibit a range of atomic structures, from atomically flat to atomically stepped. Using atomic-scale simulation and theory, we study the influence of the intrinsic bimetal interface structure on the nucleation of lattice dislocations. In...

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Veröffentlicht in:Acta materialia 2013-11, Vol.61 (19), p.7488-7499
Hauptverfasser: Beyerlein, Irene J., Wang, Jian, Zhang, Ruifeng
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Atomic structure
Bimetals
Crystal structure
Dislocation
Dislocations
Exact sciences and technology
Interfaces
Mathematical models
Metals. Metallurgy
Nanocomposites
nuclear (including radiation effects), defects, mechanical behavior, materials and chemistry by design, synthesis (novel materials), synthesis (scalable processing)
Nucleation
Recognition
Stepped
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Zusammenfassung:Interfaces between two dissimilar metals have been observed to exhibit a range of atomic structures, from atomically flat to atomically stepped. Using atomic-scale simulation and theory, we study the influence of the intrinsic bimetal interface structure on the nucleation of lattice dislocations. Interface structure is found to have a strong effect on which dislocations are nucleated and the type of nucleation site. We develop a theoretical model that provides criteria for predicting these effects based on key structural relationships between the interface and adjoining crystals. In recognition of these critical conditions, we construct a map that identifies the most likely nucleation site from a given interface. The theory and map developed here can guide efforts to tune interface structures for controlling the strength and deformation of heterogeneous materials.
ISSN:1359-6454
1873-2453
DOI:10.1016/j.actamat.2013.08.061