Title of article
The role of partial grain boundary dislocations in grain boundary sliding and coupled grain boundary motion
Author/Authors
Joshua Monk Brian Hyde Diana Farkas، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2006
Pages
6
From page
7741
To page
7746
Abstract
We study the process of grain boundary
sliding through the motion of grain boundary dislocations,
utilizing molecular dynamics and embedded
atom method (EAM) interatomic potentials. For a
S = 5 [001]{310} symmetrical tilt boundary in bcc Fe,
the sliding process was found to occur through the
nucleation and glide of partial grain boundary dislocations,
with a secondary grain boundary structure
playing an important role in the sliding process. While
the homogeneous nucleation of these grain boundary
dislocations requires shear strain levels higher than
7%, preexisting grain boundary dislocations are shown
to glide at applied shear levels of 1.5%. The glide of
the dislocations results in coupled motion of the
boundary in the directions parallel and perpendicular
to itself. Finally, interstitial impurities and vacancies
were introduced in the grain boundary to study the
effects on the sliding resistance of the boundary. While
vacancies and H interstitials act as preferred nucleation
sites, C interstitials do not. Both hydrogen and C interstitials
stop dislocation glide whereas vacancies do
not. A detailed study of the dynamic properties of
these dislocations is also presented.
Journal title
Journal of Materials Science
Serial Year
2006
Journal title
Journal of Materials Science
Record number
832268
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