Dislocation Multiplication by Single Cross Slip for FCC at Submicron Scales
Author:
Publisher
IOP Publishing
Subject
General Physics and Astronomy
Link
https://iopscience.iop.org/article/10.1088/0256-307X/30/4/046103/pdf
Reference26 articles.
1. Plasticity of Micrometer-Scale Single Crystals in Compression
2. Sample size effects on the large strain bursts in submicron aluminum pillars
3. Dislocation Avalanches, Strain Bursts, and the Problem of Plastic Forming at the Micrometer Scale
4. Characteristic Sizes for Exhaustion-Hardening Mechanism of Compressed Cu Single-Crystal Micropillars
5. Athermal mechanisms of size-dependent crystal flow gleaned from three-dimensional discrete dislocation simulations
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1. Future evolution: Multiscale modeling framework to develop a physically based nonlocal plasticity model for crystalline materials;Size Effects in Plasticity;2019
2. References;Dislocation Mechanism-Based Crystal Plasticity;2019
3. A New View of Incipient Plastic Instability during Nanoindentation;Chinese Physics Letters;2017-03
4. Discrete-Continuous Model of Crystal Plasticity;Springer Theses;2016-10-27
5. Strain Avalanches in Microsized Single Crystals: Avalanche Size Predicted by a Continuum Crystal Plasticity Model;Chinese Physics Letters;2016-10
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