Multiscale modelling of bi-crystal grain boundaries in bcc iron
Atomistic simulations have provided much insight into grain boundary (GB) structures and mechanisms which are important in understanding the properties of materials. In this paper, the Sigma 3{1 1 2}, Sigma 3{1 1 1} and Sigma 5{0 1 3} (coincidence site lattice) GBs of bcc iron are investigated using molecular statics (MS) simulations, ab initio DFT calculations and the simulated HRTEM method. For the MS calculations, four empirical potentials. the Ackland potential (1997). Mendelev potentials 2 and 4 and the Duclarev-Derlet potential have been used. The MS results for all three symmetrical grain boundaries show the results to be independent of the empirical potential implemented. After relaxation, the symmetrical structures of the GBs remain, in agreement with ab initio calculation results. (C) 2008 Elsevier B.V. All rights reserved.
WOS:000265168000011
2009
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REVIEWED
Event name | Event place | Event date |
Strasbourg, France | May 26-30, 2008 | |