Metamaterials are a group of materials with artificial engineered structures that exhibits customized properties which are not naturally available in other materials. To accelerate the computational analysis of components made from metamaterials that helps novel engineering product design process, it is crucial to develop an accurate and robust model for these materials in macroscale. The classical approach to drive a material model in continuum level is based on development of a phenomenological model to represent the physical behaviour of the material. However, this approach has specific limitations in including the effect of tailoring design parameters in the model which is a key element for metamaterials. In this study, we have proposed...
Refractory materials are heterogeneous materials having complex microstructures with different const...
Classically, the mechanical response of materials is described through constitutive models, often in...
Neural networks provide a potentially viable alternative to a differential equation based constituti...
Mechanical metamaterials such as open- and closed-cell lattice structures, foams, composites, and so...
This dissertation builds the foundational knowledge required for creating a general material capable...
Constitutive modeling of nonlinear materials is a computationally complex and time-intensive process...
In the current work, the mechanical response of multiscale cellular materials with hollow variable-s...
In this paper we show some different concepts for the use of Artificial Neural Networks [1-4] in mod...
Approximation of constitutive parameters for material models using artificial neural network
A sequential nonlinear multiscale method for the simulation of elastic metamaterials subject to larg...
International audienceMachine Learning methods and, in particular, Artificial Neural Networks (ANNs)...
An artificial neural network (ANN) is used to model nonlinear, large deformation plastic behavior of...
Mechanical metamaterials are man‐made designer materials with unusual properties, which are derived ...
In a concurrent (FE2) multiscale modeling is an increasingly popular approach for modeling complex m...
Finite element method has, in recent years, been widely used as a powerful tool in analysis of engin...
Refractory materials are heterogeneous materials having complex microstructures with different const...
Classically, the mechanical response of materials is described through constitutive models, often in...
Neural networks provide a potentially viable alternative to a differential equation based constituti...
Mechanical metamaterials such as open- and closed-cell lattice structures, foams, composites, and so...
This dissertation builds the foundational knowledge required for creating a general material capable...
Constitutive modeling of nonlinear materials is a computationally complex and time-intensive process...
In the current work, the mechanical response of multiscale cellular materials with hollow variable-s...
In this paper we show some different concepts for the use of Artificial Neural Networks [1-4] in mod...
Approximation of constitutive parameters for material models using artificial neural network
A sequential nonlinear multiscale method for the simulation of elastic metamaterials subject to larg...
International audienceMachine Learning methods and, in particular, Artificial Neural Networks (ANNs)...
An artificial neural network (ANN) is used to model nonlinear, large deformation plastic behavior of...
Mechanical metamaterials are man‐made designer materials with unusual properties, which are derived ...
In a concurrent (FE2) multiscale modeling is an increasingly popular approach for modeling complex m...
Finite element method has, in recent years, been widely used as a powerful tool in analysis of engin...
Refractory materials are heterogeneous materials having complex microstructures with different const...
Classically, the mechanical response of materials is described through constitutive models, often in...
Neural networks provide a potentially viable alternative to a differential equation based constituti...