Rules for Forest Interactions between Dislocations
- 29 November 1999
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 83 (22) , 4574-4577
- https://doi.org/10.1103/physrevlett.83.4574
Abstract
The dynamical interactions of dislocations existing on intersecting glide planes have been investigated using numerical simulations based on isotropic linear elastic theory. It is found that such dislocations either repel, attract and form growing junctions, or attract and form bound crossed states. Which of these occurs can be predicted from a surprisingly simple analysis of the initial configurations. The outcome is determined primarily by the angles which the dislocations initially make with the glide-plane intersection edge, and is largely independent of the initial distance between the dislocations, their initial curvature, or ambient applied stresses. The results provide a rule for dealing with forest interactions within the context of large multiple-dislocation computations.Keywords
This publication has 9 references indexed in Scilit:
- Simulation of dislocations on the mesoscopic scale. I. Methods and examplesJournal of Applied Physics, 1999
- Models for long-/short-range interactions and cross slip in 3D dislocation simulation of BCC single crystalsModelling and Simulation in Materials Science and Engineering, 1998
- Dislocation mobility and the mechanical response of b.c.c. single crystals: A mesoscopic approachActa Materialia, 1998
- On plastic deformation and the dynamics of 3D dislocationsInternational Journal of Mechanical Sciences, 1998
- Dislocation Patterns in Strained Layers from Sources on Parallel Glide PlanesPhysical Review Letters, 1997
- Mesoscopic simulations of dislocations and plasticityMaterials Science and Engineering: A, 1997
- Interaction of Dislocations on Crossed Glide Planes in a Strained Epitaxial LayerPhysical Review Letters, 1997
- A superdislocation model for the strengthening of metal matrix composites and the initiation and propagation of shear bandsActa Metallurgica et Materialia, 1994
- Simulations of forest interactions and strain hardening in FCC crystalsModelling and Simulation in Materials Science and Engineering, 1994