Fundamental issues in finite element analyses of localization of deformation
Reads0
Chats0
TLDR
In this article, three different approaches are scrutinized which may be used to remedy these two intimately related deficiencies of the classical theory, namely (i) the addition of higher-order deformation gradients, (ii) the use of micropolar continuum models, and (iii) the adding of rate dependence.Abstract:
Classical continuum models, i.e. continuum models that do not incorporate an internal length scale, suffer from excessive mesh dependence when strain‐softening models are used in numerical analyses and cannot reproduce the size effect commonly observed in quasi‐brittle failure. In this contribution three different approaches will be scrutinized which may be used to remedy these two intimately related deficiencies of the classical theory, namely (i) the addition of higher‐order deformation gradients, (ii) the use of micropolar continuum models, and (iii) the addition of rate dependence. By means of a number of numerical simulations it will be investigated under which conditions these enriched continuum theories permit localization of deformation without losing ellipticity for static problems and hyperbolicity for dynamic problems. For the latter class of problems the crucial role of dispersion in wave propagation in strain‐softening media will also be highlighted.read more
Citations
More filters
Journal ArticleDOI
Visco-Cosserat periporomechanics for dynamic shear bands and crack branching in porous media
Xiaoyu Song,Hossein Pashazad +1 more
TL;DR: In this paper , a Cosserat periporomechanics paradigm for modeling dynamic shear banding and crack branching in dry porous media incorporating a micro-structure based length scale is proposed.
Book ChapterDOI
Review of numerical approaches using the gradient-enhanced continuum plasticity
George Z. Voyiadjis,Yooseob Song +1 more
TL;DR: The main advantage of using the finite element method (FEM) for the strain gradient plasticity theory over other methodologies such as molecular dynamics and discrete dislocation dynamics is its straightforwardness in simulations on realistic structure/scale/time and flexibility in the continuum-based framework as discussed by the authors.
Journal ArticleDOI
Numerical technique for strain localization analysis considering a Cartesian parameterization
TL;DR: In this article, a numerical technique for strain localization analysis in nonlinear material models considering a Cartesian parameterization was presented. But this technique was performed at material level after the convergence of each step in a set of nonlinear analyses.
Journal ArticleDOI
Numerical analysis of bifurcation and shear band measurement in geomaterials
TL;DR: In this paper , the authors make a full-range analysis of the shear band in structural level and make a comparison between the bifurcation conditions in classical continuum and analogical bifurbation conditions in micropolar theory.
Posted Content
Adaptive Clustering-based Reduced-Order Modeling Framework: Fast and accurate modeling of localized history-dependent phenomena.
TL;DR: Adaptive Clustering-based Reduced-Order Modeling (ACROM) is proposed in this paper, which is composed of three main building blocks: target clusters selection criterion, adaptive cluster analysis, and computation of cluster interaction tensors.
References
More filters
Journal ArticleDOI
Conditions for the localization of deformation in pressure-sensitive dilatant materials
John W. Rudnicki,James R. Rice +1 more
TL;DR: In this paper, the authors investigated the hypothesis that localization of deformation into a shear band may be considered a result of an instability in the constitutive description of homogeneous deformation.
Théorie des corps déformables
TL;DR: Cosserat and Hermann as mentioned in this paper discussed the kinematical and dynamical theories of the flexible line, the flexible surface, and the deformable three-dimensional medium in great detail.
Journal ArticleDOI
Nonlocal damage theory
TL;DR: In this paper, the authors proposed a nonlocal damage theory, which is based on the nonlocal treatment of damage from the local treatment of elastic behavior, and the only required modification is to replace the usual local damage energy release rate with its spatial average over the representative volume of the material whose size is a characteristic of a material.
Journal ArticleDOI
A general theory of uniqueness and stability in elastic-plastic solids
TL;DR: A sufficient condition for uniqueness of the boundary-value problem set by given velocities on a part of the surface of a body and given nominal traction-rates on the remainder is established in this paper.
Related Papers (5)
Gradient-dependent plasticity: formulation and algorithmic aspects
René de Borst,Hans Muhlhaus +1 more