Peierls stress and Peierls energy of a 70.5° ⟨1 1 1⟩ dislocation in Mo
- Author(s)
- Gunther Schoeck
- Abstract
The Peierls potential and the Peierls stress of a
70.5° ⟨1 1 1⟩dislocation with line orientation along the [1 1 1]
direction and
Burgers vector in Mo are studied using two slightly different profiles
of the γ-surface from the literature. Since the Burgers vector has a
large edge component, the dislocation has a well-defined
glide plane. Therefore, its core structure can be studied following
the procedure of the Peierls model generalized as variational problem.
The model allows differentiating between the (long range) elastic
self-energy and the (local) atomic misfit energy in the glide plane.
When in the Rayleigh–Ritz method the variational trial functions are
assumed to be Peierls dislocations, it is possible to calculate
analytically the changes in elastic energy during the translation of the
dislocation centre. It turns out that these changes in elastic energy
can be very large and reduce the ‘effective Peierls energy’ to a small
fraction of the changes in atomic misfit energy. The results depend
sensitively on finer details of the γ-surface. The calculations can be
performed on a laptop in a time scale of minutes.
- Organisation(s)
- Physics of Nanostructured Materials
- External organisation(s)
- Universität Wien
- Journal
- Philosophical Magazine
- Volume
- 93
- Pages
- 2363-2376
- No. of pages
- 14
- ISSN
- 1478-6435
- DOI
- https://doi.org/10.1080/14786435.2013.774466
- Publication date
- 06-2013
- Peer reviewed
- Yes
- Austrian Fields of Science 2012
- 103018 Materials physics
- Keywords
- Portal url
- https://ucris.univie.ac.at/portal/en/publications/peierls-stress-and-peierls-energy-of-a-705-1-1-1-dislocation-in-mo(c2f6dbd5-4cec-42f5-8be3-01f40a2533ef).html