Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we perform simple uniaxial tensile tests on a manufactured rubber-like material that provide critical information regarding the variability in the constitutive responses between different specimens. Based on the experimental data, we construct stochastic homogeneous hyperelastic models where the parameters are described by spatially independent probability density functions at a macroscopic level. As more than one parametrised model is capable of capturing the observed material behaviour, we apply Baye theorem to select the model that is most likely to reproduce the data. Our analysis is fully tractable mathematically and builds directly on knowl...
The stochastic finite element method is a useful tool to calculate the response of systems subject t...
Manufactured materials usually contain random imperfections due to the fabrication process, e.g., th...
International audienceA methodology is presented to quantify uncertainties resulting from the analys...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Biological and synthetic materials often exhibit intrinsic variability in their elastic responses un...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
Combining finite elasticity and information theory, a stochastic method is devel oped in order to ac...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
peer reviewedWe discuss Bayesian inference for the identi cation of elastoplastic material parameter...
To evaluate the cyclic behaviour under different loading conditions using the kinematic and isotropic...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
The aim of the current work is to develop a Bayesian approach to model and simulate the behavior of ...
Modelling of heterogeneous materials based on randomness of model input parameters involves paramete...
The stochastic finite element method is a useful tool to calculate the response of systems subject t...
Manufactured materials usually contain random imperfections due to the fabrication process, e.g., th...
International audienceA methodology is presented to quantify uncertainties resulting from the analys...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Biological and synthetic materials often exhibit intrinsic variability in their elastic responses un...
Predicting the behaviour of various engineering systems is commonly performed using mathematical mod...
Combining finite elasticity and information theory, a stochastic method is devel oped in order to ac...
We discuss Bayesian inference (BI) for the probabilistic identification of material parameters. This...
Material parameters identified by mechanical tests can vary from one specimen to another. This varia...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
peer reviewedWe discuss Bayesian inference for the identi cation of elastoplastic material parameter...
To evaluate the cyclic behaviour under different loading conditions using the kinematic and isotropic...
peer reviewedThe aim of this contribution is to explain in a straightforward manner how Bayesian inf...
The aim of the current work is to develop a Bayesian approach to model and simulate the behavior of ...
Modelling of heterogeneous materials based on randomness of model input parameters involves paramete...
The stochastic finite element method is a useful tool to calculate the response of systems subject t...
Manufactured materials usually contain random imperfections due to the fabrication process, e.g., th...
International audienceA methodology is presented to quantify uncertainties resulting from the analys...