In order to optimally design materials, it is crucial to understand the structure-property relations in the material by analyzing the effect of microstructure parameters on the macroscopic properties. In computational homogenization, the microstructure is thus explicitly modeled inside the macrostructure, leading to a coupled two-scale formulation. Unfortunately, the high computational costs of such multiscale simulations often render the solution of design, optimization, or inverse problems infeasible. To address this issue, we propose in this work a non-intrusive reduced basis method to construct inexpensive surrogates for parametrized microscale problems; the method is specifically well-suited for multiscale simulations since the coupled...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
We propose a surrogate model for two-scale computational homogenization of elastostatics at finite s...
peer reviewedIn this paper, we propose upper and lower error bounding techniques for reduced order m...
In order to optimally design materials, it is crucial to understand the structure-property relations...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Computing the macroscopic material response of a continuum body commonly involves the formulation of...
In recent years, there has been a growing interest in understanding complex microstructures and thei...
Micromechanical modeling of material behavior has become an accepted approach to describe the macros...
In recent years, there has been a growing interest in understanding complex microstructures and thei...
Multiscale computational modelling is challenging due to the high computational cost of direct numer...
International audienceIn 2003 the authors proposed a model-reduction technique, called the Nonunifor...
In this paper, we propose upper and lower error bounding techniques for reduced order modelling appl...
peer reviewedComputational homogenisation is a widely spread technique to calculate the overall prop...
Concurrent multiscale finite element analysis (FE2) is a powerful approach for high-fidelity modelin...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
We propose a surrogate model for two-scale computational homogenization of elastostatics at finite s...
peer reviewedIn this paper, we propose upper and lower error bounding techniques for reduced order m...
In order to optimally design materials, it is crucial to understand the structure-property relations...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Two-scale simulations are often employed to analyze the effect of the microstructure on a component'...
Computing the macroscopic material response of a continuum body commonly involves the formulation of...
In recent years, there has been a growing interest in understanding complex microstructures and thei...
Micromechanical modeling of material behavior has become an accepted approach to describe the macros...
In recent years, there has been a growing interest in understanding complex microstructures and thei...
Multiscale computational modelling is challenging due to the high computational cost of direct numer...
International audienceIn 2003 the authors proposed a model-reduction technique, called the Nonunifor...
In this paper, we propose upper and lower error bounding techniques for reduced order modelling appl...
peer reviewedComputational homogenisation is a widely spread technique to calculate the overall prop...
Concurrent multiscale finite element analysis (FE2) is a powerful approach for high-fidelity modelin...
This work presents a general formulation of small and large strain multiscale solid constitutive mod...
We propose a surrogate model for two-scale computational homogenization of elastostatics at finite s...
peer reviewedIn this paper, we propose upper and lower error bounding techniques for reduced order m...