AbstractComputational homogenization for quasistatic stress problems is considered, whereby the macroscale stress is obtained via averaging on Statistical Volume Elements (SVE:s). The variational “workhorse” for the subscale problem is derived from the presumption of weak micro-periodicity, which was proposed by Larsson et al. (2011). Continuum (visco)plasticity is adopted for the mesoscale constituents, whereby a pseudo-elastic, incremental strain energy serves as the potential for the updated stress in a given time-increment. Strict bounds on the incremental strain energy are derived from imposing Dirichlet and Neumann boundary conditions, which are defined as suitable restrictions of the proposed variational format. For this purpose, bot...
Macroscopic quantities beyond effective elastic tensors are presented that can be used to assess the...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
Computational homogenization for quasistatic stress problems is considered, whereby the macroscale s...
Computational homogenization with a priori assumed scale separation is considered, whereby the macro...
Variationally consistent selective homogenization is applied to a class of gradient-enhanced dissipa...
This paper presents the application of variationally consistent selective homogenization applied to ...
BackgroundComputational homogenization is a well-established approach in material modeling with the ...
Macroscopic quantities beyond e¬ective elastic tensors are presented that can be used to assess the ...
An accurate homogenization method that accounts for large deformations and viscoelastic material beh...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
With the complexity of modern microstructured materials, computational homogenization methods have b...
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
The paper describes an approach, based on computational homogenization, for constructing the macrosc...
Macroscopic quantities beyond effective elastic tensors are presented that can be used to assess the...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
Computational homogenization for quasistatic stress problems is considered, whereby the macroscale s...
Computational homogenization with a priori assumed scale separation is considered, whereby the macro...
Variationally consistent selective homogenization is applied to a class of gradient-enhanced dissipa...
This paper presents the application of variationally consistent selective homogenization applied to ...
BackgroundComputational homogenization is a well-established approach in material modeling with the ...
Macroscopic quantities beyond e¬ective elastic tensors are presented that can be used to assess the ...
An accurate homogenization method that accounts for large deformations and viscoelastic material beh...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
With the complexity of modern microstructured materials, computational homogenization methods have b...
Computational homogenization of microstructures with randomly distributed cracks is studied. The pur...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
The paper describes an approach, based on computational homogenization, for constructing the macrosc...
Macroscopic quantities beyond effective elastic tensors are presented that can be used to assess the...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
The objective of this contribution is to present a unifying review on strain-driven computational ho...