EP/J01947X/1 Towards rationalised computational expense for simulating fracture over multiple scale
International audienceWe present a new auxiliary problem for the determination of the apparent stiff...
This study aims to establish a framework for multiscale assessment of damage for materials with evol...
Over the last few years, the intrinsic role of different spatial scales in the mechanics of material...
Background Computational homogenization is a well-established approach in material modeling with the...
We present an extension of the computational homogenization theory to cases where different structur...
The possibility of combining several constituents to obtain properties that cannot be obtained with...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
With the complexity of modern microstructured materials, computational homogenization methods have b...
A second-order two-scale computational homogenization procedure for modelling deformation responses ...
International audienceWithin the framework of numerical homogeneization approaches, we focus on the ...
Material heterogeneities, such as pores, inclusion or manufacturing defects can have a detrimental i...
Formulation of the scale transition equations coupling the microscopic and macroscopic variables in ...
International audienceWe present a new auxiliary problem for the determination of the apparent stiff...
This study aims to establish a framework for multiscale assessment of damage for materials with evol...
Over the last few years, the intrinsic role of different spatial scales in the mechanics of material...
Background Computational homogenization is a well-established approach in material modeling with the...
We present an extension of the computational homogenization theory to cases where different structur...
The possibility of combining several constituents to obtain properties that cannot be obtained with...
The computational homogenization method enables to derive the overall behavior of heterogeneous mate...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
Phenomena spanning multiple spatial scales and encompassing multiple physics disciplines of interest...
The objective of this contribution is to present a unifying review on strain-driven computational ho...
With the complexity of modern microstructured materials, computational homogenization methods have b...
A second-order two-scale computational homogenization procedure for modelling deformation responses ...
International audienceWithin the framework of numerical homogeneization approaches, we focus on the ...
Material heterogeneities, such as pores, inclusion or manufacturing defects can have a detrimental i...
Formulation of the scale transition equations coupling the microscopic and macroscopic variables in ...
International audienceWe present a new auxiliary problem for the determination of the apparent stiff...
This study aims to establish a framework for multiscale assessment of damage for materials with evol...
Over the last few years, the intrinsic role of different spatial scales in the mechanics of material...