Single Crystal Gradient Plasticity With An Accumulated Plastic Slip Theory And Applications
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Single-crystal Gradient Plasticity with an Accumulated Plastic Slip: Theory and Applications
Author: Eric Bayerschen
language: en
Publisher: KIT Scientific Publishing
Release Date: 2016
In experiments on metallic microwires, size effects occur as a result of the interaction of dislocations with, e.g., grain boundaries. In continuum theories this behavior can be approximated using gradient plasticity. A numerically efficient geometrically linear gradient plasticity theory is developed considering the grain boundaries and implemented with finite elements. Simulations are performed for several metals in comparison to experiments and discrete dislocation dynamics simulations.
Single-crystal Gradient Plasticity With an Accumulated Plastic Slip
In experiments on metallic microwires, size effects occur as a result of the interaction of dislocations with, e.g., grain boundaries. In continuum theories this behavior can be approximated using gradient plasticity. A numerically efficient geometrically linear gradient plasticity theory is developed considering the grain boundaries and implemented with finite elements. Simulations are performed for several metals in comparison to experiments and discrete dislocation dynamics simulations. This work was published by Saint Philip Street Press pursuant to a Creative Commons license permitting commercial use. All rights not granted by the work's license are retained by the author or authors.
A Gradient Crystal Plasticity Theory Based on an Extended Energy Balance
Author: Prahs, Andreas
language: en
Publisher: KIT Scientific Publishing
Release Date: 2020-09-15
An overview of different methods for the derivation of extended continuum models is given. A gradient plasticity theory is established in the context of small deformations and single slip by considering the invariance of an extended energy balance with respect to Euclidean transformations, where the plastic slip is considered as an additional degree of freedom. Thermodynamically consistent flow rules at the grain boundary are derived. The theory is applied to a two- and a three-phase laminate.