Manufactured materials usually contain random imperfections due to the fabrication process, e.g., the 3D-printing, casting, etc. These imperfections affect significantly the effective material properties and result in uncertainties in the mechanical response. Numerical analysis of the effects of the imperfections and the uncertainty quantification (UQ) can be often done by use of digital stochastic surrogate material models. In this work, we present a new flexible class of surrogate models depending on a small number of parameters with special focus on two-phase materials. The surrogate models are constructed as the level-set of a linear combination of an intensity field representing the topological shape and a Gaussian perturbation represe...
In this thesis, we develop approaches for carrying out inference and model-based experimental design...
The presented adaptive modelling approach aims to jointly control the level of renement for each of ...
In most science and engineering fields, numerical simulation models are often used to replicate phys...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Material properties are often dominated by imperfections and geometrical variations in micro-scale. ...
Additive Manufacturing (AM) is a manufacturing approach that can build a three-dimensional object fr...
This dissertation addresses the issue of dealing with uncertainties when surrogate models are used t...
This dissertation addresses the issue of dealing with uncertainties when surrogate models are used t...
The stochastic finite element method is a useful tool to calculate the response of systems subject t...
Nowadays computational models are used in virtually all fields of applied sciences and engineering t...
The emergence of additive manufacture (AM) for metallic material enables components of near arbitrar...
At a macroscopic scale, the details of mechanical behaviour are often uncertain, due to incomplete k...
Nowadays, computational models are used in virtually all fields of applied sciences and engineering ...
The emergence of additive manufacture (AM) for metallic material enables components of near arbitrar...
The uncertain quality of composites, due to variability in the mechanical response, forces design en...
In this thesis, we develop approaches for carrying out inference and model-based experimental design...
The presented adaptive modelling approach aims to jointly control the level of renement for each of ...
In most science and engineering fields, numerical simulation models are often used to replicate phys...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Material properties are often dominated by imperfections and geometrical variations in micro-scale. ...
Additive Manufacturing (AM) is a manufacturing approach that can build a three-dimensional object fr...
This dissertation addresses the issue of dealing with uncertainties when surrogate models are used t...
This dissertation addresses the issue of dealing with uncertainties when surrogate models are used t...
The stochastic finite element method is a useful tool to calculate the response of systems subject t...
Nowadays computational models are used in virtually all fields of applied sciences and engineering t...
The emergence of additive manufacture (AM) for metallic material enables components of near arbitrar...
At a macroscopic scale, the details of mechanical behaviour are often uncertain, due to incomplete k...
Nowadays, computational models are used in virtually all fields of applied sciences and engineering ...
The emergence of additive manufacture (AM) for metallic material enables components of near arbitrar...
The uncertain quality of composites, due to variability in the mechanical response, forces design en...
In this thesis, we develop approaches for carrying out inference and model-based experimental design...
The presented adaptive modelling approach aims to jointly control the level of renement for each of ...
In most science and engineering fields, numerical simulation models are often used to replicate phys...