A review on stochastic multiscale analysis for FRP composite structures
Fibre reinforced polymer (FRP) composites have been increasingly applied in engineering
structures especially for achieving high demands on structural performance, but they are …
structures especially for achieving high demands on structural performance, but they are …
Multiscale continuous and discontinuous modeling of heterogeneous materials: a review on recent developments
This paper reviews the recent developments in the field of multiscale modelling of
heterogeneous materials with emphasis on homogenization methods and strain localization …
heterogeneous materials with emphasis on homogenization methods and strain localization …
Stochastic multiscale modeling for quantifying statistical and model errors with application to composite materials
This paper provides a coherent and efficient computational framework for stochastic
multiscale analysis of material systems in the presence of parametric uncertainties and …
multiscale analysis of material systems in the presence of parametric uncertainties and …
Determination of RVE size for random composites with local volume fraction variation
D Savvas, G Stefanou, M Papadrakakis - Computer Methods in Applied …, 2016 - Elsevier
In this paper, a novel computational procedure is proposed for the determination of the
representative volume element (RVE) size for random composites, which is the basis of …
representative volume element (RVE) size for random composites, which is the basis of …
[HTML][HTML] Uncertainty quantification of inverse analysis for geomaterials using probabilistic programming
H Zhao, S Li, X Zang, X Liu, L Zhang, J Ren - Journal of Rock Mechanics …, 2024 - Elsevier
Uncertainty is an essentially challenging for safe construction and long-term stability of
geotechnical engineering. The inverse analysis is commonly utilized to determine the …
geotechnical engineering. The inverse analysis is commonly utilized to determine the …
A new multiscale XFEM for the elastic properties evaluation of heterogeneous materials
In the present work, extended finite element method (XFEM) in conjunction with multiscale
finite element method (MsFEM) is employed to model heterogeneous materials ie matrix …
finite element method (MsFEM) is employed to model heterogeneous materials ie matrix …
Numerical modeling of corrosion pit propagation using the combined extended finite element and level set method
R Duddu - Computational Mechanics, 2014 - Springer
A sharp-interface Eulerian formulation for modeling the propagation of localized pitting
corrosion is presented. This formulation allows for an accurate representation of the …
corrosion is presented. This formulation allows for an accurate representation of the …
Recent progress of uncertainty quantification in small-scale materials science
P Acar - Progress in Materials Science, 2021 - Elsevier
This work addresses a comprehensive review of the recent efforts for uncertainty
quantification in small-scale materials science. Experimental and computational studies for …
quantification in small-scale materials science. Experimental and computational studies for …
A deep learning driven pseudospectral PCE based FFT homogenization algorithm for complex microstructures
This work is directed to uncertainty quantification of homogenized effective properties for
composite materials with complex, three dimensional microstructure. The uncertainties arise …
composite materials with complex, three dimensional microstructure. The uncertainties arise …
Computational nonlinear stochastic homogenization using a nonconcurrent multiscale approach for hyperelastic heterogeneous microstructures analysis
This paper is devoted to the computational nonlinear stochastic homogenization of a
hyperelastic heterogeneous microstructure using a nonconcurrent multiscale approach. The …
hyperelastic heterogeneous microstructure using a nonconcurrent multiscale approach. The …