AbstractThis paper discusses evaluation of influence of microscopic uncertainty on a homogenized macroscopic elastic property of an inhomogeneous material. In order to analyze the influence, the perturbation-based homogenization method is used. A higher order perturbation-based analysis method for investigating stochastic characteristics of a homogenized elastic tensor and an equivalent elastic property of a composite material is formulated.As a numerical example, macroscopic stochastic characteristics such as an expected value or variance, which is caused by microscopic uncertainty in material properties, of a homogenized elastic tensor and homogenized equivalent elastic property of unidirectional fiber reinforced plastic are investigated....
This research develops a stochastic mean-field-homogenization (MFH) process that is used as Reduced ...
This paper proposes a dual stochastic finite element method for conducting stochastic analysis for l...
The purpose of this work is to generate Stochastic Volume Element (SVE) of unidirectional composites...
AbstractThis paper discusses evaluation of influence of microscopic uncertainty on a homogenized mac...
AbstractQuantifying uncertainty in the overall elastic properties of composite materials arising fro...
Quantifying uncertainty in the overall elastic properties of composite materials arising from random...
Composite materials are widely used because of their excellent functional properties. However, in pr...
peer reviewedAn inverse Mean-Field Homogenization (MFH) process is developed to improve the computat...
In this paper, a stochastic homogenization method that couples the state-of-the-art computational mu...
AbstractIn this paper, a stochastic homogenization method that couples the state-of-the-art computat...
peer reviewedIn this work, the elastic response of unidirectional fiber (UD) reinforced composites i...
Homogenization-based multiscale approaches have been widely developed in order to account for micro...
When considering a homogenization-based multiscale approach, at each integration-point of the macro-...
AbstractThe main issue this paper addresses is the derivation and implementation of a general homoge...
In order to account for micro-structural geometrical and material properties in an accurate way, hom...
This research develops a stochastic mean-field-homogenization (MFH) process that is used as Reduced ...
This paper proposes a dual stochastic finite element method for conducting stochastic analysis for l...
The purpose of this work is to generate Stochastic Volume Element (SVE) of unidirectional composites...
AbstractThis paper discusses evaluation of influence of microscopic uncertainty on a homogenized mac...
AbstractQuantifying uncertainty in the overall elastic properties of composite materials arising fro...
Quantifying uncertainty in the overall elastic properties of composite materials arising from random...
Composite materials are widely used because of their excellent functional properties. However, in pr...
peer reviewedAn inverse Mean-Field Homogenization (MFH) process is developed to improve the computat...
In this paper, a stochastic homogenization method that couples the state-of-the-art computational mu...
AbstractIn this paper, a stochastic homogenization method that couples the state-of-the-art computat...
peer reviewedIn this work, the elastic response of unidirectional fiber (UD) reinforced composites i...
Homogenization-based multiscale approaches have been widely developed in order to account for micro...
When considering a homogenization-based multiscale approach, at each integration-point of the macro-...
AbstractThe main issue this paper addresses is the derivation and implementation of a general homoge...
In order to account for micro-structural geometrical and material properties in an accurate way, hom...
This research develops a stochastic mean-field-homogenization (MFH) process that is used as Reduced ...
This paper proposes a dual stochastic finite element method for conducting stochastic analysis for l...
The purpose of this work is to generate Stochastic Volume Element (SVE) of unidirectional composites...