Title of article
Atomic mechanisms of grain boundary diffusion: Low versus high temperatures
Author/Authors
A. Suzuki، نويسنده , , Y. MISHIN، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2005
Pages
7
From page
3155
To page
3161
Abstract
We analyze recent results of atomistic computer simulations of grain boundary (GB)
diffusion in metals. At temperatures well below the bulk melting point Tm GB diffusion
occurs by random walk of individual vacancies and self-interstitials. Both defects are equal
participants in the diffusion process and can move by a large variety of diffusion
mechanisms, many of which are collective transitions. GB diffusion coefficients can be
computed by kinetic Monte Carlo simulations. At high temperatures, the presence of large
concentrations of point defects is likely to alter the diffusion mechanisms. Molecular
dynamics simulations of GB structure and diffusion in copper reveal a continuous GB
premelting in close vicinity of Tm. However, diffusion in high-energy GBs becomes almost
independent of the GB structure (“universal”) at temperatures well below Tm. This behavior
can be tentatively explained in terms of heterophase fluctuations from the solid to the
liquid phase. The exact diffusion mechanisms in the presence of heterophase fluctuations
are yet to be established. C 2005 Springer Science + Business Media, Inc.
Journal title
Journal of Materials Science
Serial Year
2005
Journal title
Journal of Materials Science
Record number
829936
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