Situating the Vector Density Approach Among Contemporary Continuum Theories of Dislocation Dynamics
| Autor: | Peng Lin, Kyle Starkey, Vignesh Vivekanandan, Joseph Pierre Anderson, Yash Pachaury, Anter El-Azab |
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| Rok vydání: | 2021 |
| Předmět: | |
| Zdroj: | Journal of Engineering Materials and Technology. 144 |
| ISSN: | 1528-8889 0094-4289 |
| Popis: | For the past century, dislocations have been understood to be the carriers of plastic deformation in crystalline solids. However, their collective behavior is still poorly understood. Progress in understanding the collective behavior of dislocations has primarily come in one of two modes: the simulation of systems of interacting discrete dislocations and the treatment of density measures of varying complexity that are considered as continuum fields. A summary of contemporary models of continuum dislocation dynamics is presented. These include, in order of complexity, the two-dimensional statistical theory of dislocations, the field dislocation mechanics treating the total Kröner–Nye tensor, vector density approaches that treat geometrically necessary dislocations on each slip system of a crystal, and high-order theories that examine the effect of dislocation curvature and distribution over orientation. Each of theories contain common themes, including statistical closure of the kinetic dislocation transport equations and treatment of dislocation reactions such as junction formation. An emphasis is placed on how these common themes rely on closure relations obtained by analysis of discrete dislocation dynamics experiments. The outlook of these various continuum theories of dislocation motion is then discussed. |
| Databáze: | OpenAIRE |
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