Shocks and slip systems: predictions from a mesoscale theory of continuum dislocation dynamics
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Publication:731027
DOI10.1016/j.jmps.2007.08.008zbMath1171.74315OpenAlexW2054575191MaRDI QIDQ731027
Surachate Limkumnerd, James P. Sethna
Publication date: 1 October 2009
Published in: Journal of the Mechanics and Physics of Solids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jmps.2007.08.008
Related Items (3)
A single theory for some quasi-static, supersonic, atomic, and tectonic scale applications of dislocations ⋮ New Perspectives in Plasticity Theory: Dislocation Nucleation, Waves, and Partial Continuity of Plastic Strain Rate ⋮ From dislocation motion to an additive velocity gradient decomposition, and some simple models of dislocation dynamics
Cites Work
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- Modeling the evolution of crystallographic dislocation density in crystal plasticity
- A discrete mechanics approach to dislocation dynamics in BCC crystals
- On the formation and stability of dislocation patterns. III. Three- dimensional considerations
- A phenomenological theory for strain gradient effects in plasticity
- A theory of subgrain dislocation structures
- Dislocation microstructures and the effective behavior of single crystals
- Nonconvex energy minimization and dislocation structures in ductile single crystals
- On dislocation patterning: multiple slip effects in the rate equation approach
- Finite element approximation of field dislocation mechanics
- The mechanics of deformation–induced subgrain–dislocation structures in metallic crystals at large strains
- Burgulence
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