We propose and implement a computational procedure to establish data-driven surrogate constitutive models for heterogeneous materials. We study the multiaxial response of non-linear n-phase composites via Finite Element (FE) simulations and computational homogenisation. Pseudo-random, multiaxial, non-proportional histories of macroscopic strain are imposed on volume elements of n-phase composites, subject to periodic boundary conditions, and the corresponding histories of macroscopic stresses and plastically dissipated energy are recorded. The recorded data is used to train surrogate, phenomenological constitutive models based on neural networks (NNs), and the accuracy of these models is assessed and discussed. We analyse heterogeneous comp...
An artificial Neural Network (NNW) is designed to serve as a surrogate model of micro-scale simulati...
Computational multiscale methods for analyzing and deriving constitutive responses have been used as...
The main objective of the current thesis is to develop and verify a simple technique which is able t...
We present a test technique and an accompanying computational framework to obtain data-driven, surro...
Driven by the need to accelerate numerical simulations, the use of machine learning techniques is ra...
Computational homogenization methods allow circumventing issues associated to analytical or semi-ana...
In a concurrent (FE2) multiscale modeling is an increasingly popular approach for modeling complex m...
International audienceAlthough being a popular approach for the modeling of laminated composites, me...
Although being a popular approach for the modeling of laminated composites, mesoscale constitutive m...
Direct numerical simulation of hierarchical materials via homogenization-based concurrent multiscale...
We propose a surrogate model for two-scale computational homogenization of elastostatics at finite s...
Modern material systems with properly designed microstructures offer new avenues for engineering mat...
The primary objective of this dissertation is to develop computational models that describe the over...
peer reviewedThis contribution discusses surrogate models that emulate the solution field(s) in the ...
Engineering fields such as aerospace rely heavily on the Finite Element Method (FEM) as a modelling ...
An artificial Neural Network (NNW) is designed to serve as a surrogate model of micro-scale simulati...
Computational multiscale methods for analyzing and deriving constitutive responses have been used as...
The main objective of the current thesis is to develop and verify a simple technique which is able t...
We present a test technique and an accompanying computational framework to obtain data-driven, surro...
Driven by the need to accelerate numerical simulations, the use of machine learning techniques is ra...
Computational homogenization methods allow circumventing issues associated to analytical or semi-ana...
In a concurrent (FE2) multiscale modeling is an increasingly popular approach for modeling complex m...
International audienceAlthough being a popular approach for the modeling of laminated composites, me...
Although being a popular approach for the modeling of laminated composites, mesoscale constitutive m...
Direct numerical simulation of hierarchical materials via homogenization-based concurrent multiscale...
We propose a surrogate model for two-scale computational homogenization of elastostatics at finite s...
Modern material systems with properly designed microstructures offer new avenues for engineering mat...
The primary objective of this dissertation is to develop computational models that describe the over...
peer reviewedThis contribution discusses surrogate models that emulate the solution field(s) in the ...
Engineering fields such as aerospace rely heavily on the Finite Element Method (FEM) as a modelling ...
An artificial Neural Network (NNW) is designed to serve as a surrogate model of micro-scale simulati...
Computational multiscale methods for analyzing and deriving constitutive responses have been used as...
The main objective of the current thesis is to develop and verify a simple technique which is able t...