Open AccessThe study of Cu/Nb interface diffusion using molecular dynamics simulation
Author(s) -
I. V. Nelasov,
А. Г. Липницкий
Publication year - 2016
Publication title -
st petersburg polytechnical university journal physics and mathematics
Language(s) - English
Resource type - Journals
ISSN - 2405-7223
DOI - 10.1016/j.spjpm.2016.05.004
Subject(s) - molecular dynamics , diffusion , materials science , condensed matter physics , melting point , anisotropy , anisotropic diffusion , boundary (topology) , plane (geometry) , displacement (psychology) , atomic diffusion , crystallographic defect , cubic crystal system , glide plane , orientation (vector space) , crystallography , chemical physics , thermodynamics , dislocation , geometry , chemistry , physics , computational chemistry , optics , composite material , psychology , mathematical analysis , mathematics , psychotherapist
The peculiarities of interfacial boundary diffusion where the boundary goes between nonmiscible metals with body-centered cubic (BCC) and face-centered cubic (FCC) lattices have been studied taking, as a case in point, the Cu/Nb system, and using the molecular dynamics method. The diffusion atomic displacements were shown to occur mainly near the mismatch dislocations and their intersections. The diffusion of the high-melting component was found to be characterized by high anisotropy with the predominant atomic displacement along the dense-packed direction in the interfacial boundary plane being common to FCC and BCC lattices with the Kurdyumov–Sachs mutual orientation
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