The core structure of screw dislocations with [001] Burgers vector in Mg2 SiO4 olivine
Journal article, 2021
In this study, we report atomistic calculations of the core structure of screw dislocations with [001] Burgers vector in Mg SiO olivine. Computations based on the THB1 empirical potential set for olivine show that the stable core configurations of the screw dislocations correspond to a dissociation in {110} planes involving collinear partial dislocations. As a consequence, glide appears to be favorable in {110} planes at low temperature. This study also highlights the difference between dislocation glide mechanism in {110} versus (010) or (100) for which glide is expected to occur through a locking-unlocking mechanism.
Crystal plasticity
Core structure
Olivine
Dislocation glide
Atomistic simulations
Author
Srinivasan Mahendran
Chalmers, Physics, Condensed Matter and Materials Theory
University of Lille
Philippe Carrez
University of Lille
Patrick Cordier
Institut Universitaire de France
University of Lille
Comptes Rendus Physique
1631-0705 (ISSN) 18781535 (eISSN)
Vol. 22 S3Subject Categories
Theoretical Chemistry
Composite Science and Engineering
Condensed Matter Physics
DOI
10.5802/CRPHYS.27