Publisher DOI: 10.1002/gamm.201310013
Title: Analysis and comparison of two finite element algorithms for dislocation density based crystal plasticity
Language: English
Authors: Klusemann, Benjamin 
Svendsen, Bob 
Bargmann, Swantje 
Keywords: algorithmic variational; boundary element; dislocation density; dual mixed; gradient crystal plasticity
Issue Date: 7-Oct-2013
Publisher: Wiley-VCH
Source: GAMM Mitteilungen 2 (36): 219-238 (2013)
Abstract (english): 
The purpose of the current work is the formulation and comparison of two finite element algorithms for a dislocation density based crystal plasticity model. We study multiscale inelastic materials whose behavior is influenced by the evolution of inelastic microstructure and the corresponding material or internal lengthscales. The work is an extension of the first investigation in Klusemann et al. [1] which was limited to a one-dimensional bar. In the γ -algorithm, the displacement u and glide system slips γα are global unknowns and determined via weak field relations. The non-dimensional densities of geometrically necessary dislocations ρ̄α are local quantities and solved for via a strong field relation. In the Q -algorithm, both the displacement uand dislocation densities ρ̄α are modeled as global, and the glide system slips γα as local. As it turns out, both algorithms generally predict the same microstructural behavior on a single crystal level. However, for a polycrystal the two solution strategies predict different material behaviors due to the formulation-dependent representation of the boundary conditions. The introduction of a boundary layer in the model leads to good agreement between both algorithms for single and polycrystal simulations.
URI: http://hdl.handle.net/11420/4322
ISSN: 1522-2608
Journal: GAMM-Mitteilungen 
Institute: Kontinuums- und Werkstoffmechanik M-15 
Document Type: Article
Project: PAK 250 “Identifikation und Modellierung der Werkstoffcharakteristik f ̈ur die Finite-Element-Anal-yse von Blechumformprozessen" 
More Funding information: Deutsche Forschungsgemeinschaft
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