Determination of the size of the representative volume element for random composites: Statistical and numerical approach.

Random 2D composites and the generalized method of Schwarz, Equivalent microstructure problem: mathematical formulation and numerical solution, Inverse homogenization problem: evaluation of elastic and electrical (thermal) properties of composite constituents, 3D couple-stress moduli of porous polymeric biomaterials using \(\mu\) CT image stack and FE characterization, Comparison between the relaxation spectra obtained from homogenization models and finite elements simulation for the same composite, Mixed boundary conditions for FFT-based homogenization at finite strains, Homogenization in non-linear dynamics due to frictional contact, Relating cellular structure of open solid food foams to their Young's modulus: finite element calculation, A micromechanical iterative approach for the behavior of polydispersed composites, Determination of the size of the representative volume element for random quasi-brittle composites, A procedure for estimating Young's modulus of textured polycrystalline materials, Alleviating mesh constraints: model reduction, parallel time integration and high resolution homogenization, Analysis of Cosserat materials with Voronoi cell finite element method and parametric variational principle, A manifold learning approach for integrated computational materials engineering, Novel implementation of homogenization method to predict effective properties of periodic materials, A separation of scales homogenization analysis for the modelling of calcium leaching in concrete, Homogenization methods for multi-phase elastic composites with non-elliptical reinforcements: comparisons and benchmarks, Fourier-based strength homogenization of porous media, Random generation of periodic hard ellipsoids based on molecular dynamics: a computationally-efficient algorithm, Bridging tensor with an imperfect interface, Mechanical properties of open cell foams: Simulations by Laguerre tesselation procedure, Effect of 3D grain structure representation in polycrystal simulations, Routes for efficient computational homogenization of~nonlinear materials using the~proper generalized decompositions, Combining Maxwell's methodology with the BEM for evaluating the two-dimensional effective properties of composite and micro-cracked materials, Regularized virtual fields method for mechanical properties identification of composite materials, Virtual improvement of ice cream properties by computational homogenization of microstructures, Numerical modelling of regular structures with randomly perturbed structural elements, A numerical analysis of the evolution of bundle orientation in concentrated fibre-bundle suspensions, Numerical modelling of the plasticity induced during diffusive transformation. Case of a cubic array of nuclei, An enhanced grain-boundary framework for computational homogenization and micro-cracking simulations of polycrystalline materials, Estimating the poroelastic properties of cracked materials, Modeling the viscoplastic micromechanical response of two-phase materials using fast Fourier transforms, 3-D simulation of spatial stress distribution in an AZ31 Mg alloy sheet under in-plane compression, An FFT method for the computation of thermal diffusivity of porous periodic media, New approximate solution for \(N\)-point correlation functions for heterogeneous materials, Effects of model scale and particle size on micro-mechanical properties and failure processes of rocks-A particle mechanics approach, Effective Young's modulus of biopolymer composites with imperfect interface, Generalized variability response functions for two-dimensional elasticity problems, A mortar based approach for the enforcement of periodic boundary conditions on arbitrarily generated meshes, Tensor-based methods for numerical homogenization from high-resolution images, \(FE^{2}\) computational homogenization for the thermo-mechanical analysis of heterogeneous solids, A generalized uncertainty propagation criterion from benchmark studies of microstructured material systems, Large-scale 3D random polycrystals for the finite element method: generation, meshing and remeshing, Bounds and scaling laws at finite scales in planar elasticity, Identification of viscoelastic properties from numerical model reduction of pressure diffusion in fluid-saturated porous rock with fractures, Coupled-volume multi-scale modelling of quasi-brittle material, Variance reduction using antithetic variables for a nonlinear convex stochastic homogenization problem, 3D simulations of microstructure and comparison with experimental microstructure coming from O.I.M analysis, Construction of two- and three-dimensional statistically similar RVEs for coupled micro-macro simulations, Random homogenization analysis for heterogeneous materials with full randomness and correlation in microstructure based on finite element method and Monte-Carlo method, A new method for the generation of arbitrarily shaped 3D random polycrystalline domains, Microstructure-sensitive modeling of polycrystalline IN 100, Multiscale modeling of polycrystalline materials: a boundary element approach to material degradation and fracture, An adaptive concurrent multiscale method for microstructured elastic solids, High order X-FEM and levelsets for complex microstructures: uncoupling geometry and approximation, Subsampling and homogenization to investigate variability of composite material mechanical properties, Adaptive reduction of constitutive model-form error using \textit{a posteriori} error estimation techniques, Multi-scale modelling of arterial tissue: linking networks of fibres to continua, Automated homogenization-based fracture analysis: effects of SVE size and boundary condition, Identification of scale-independent material parameters in the relaxed micromorphic model through model-adapted first order homogenization, A parallel and efficient multi-split XFEM for 3-D analysis of heterogeneous materials, FEM-cluster based reduction method for efficient numerical prediction of effective properties of heterogeneous material in nonlinear range, Microstructure-based modelling of multiphase materials and complex structures, Effect of microstructure on the elasto-viscoplastic deformation of dual phase titanium structures, A mixed parallel strategy for the solution of coupled multi-scale problems at finite strains, A multiscale separated representation to compute the mechanical behavior of composites with periodic microstructure, Homogenization of dynamic behaviour of heterogeneous beams with random Young's modulus, Fast statistical homogenization procedure (FSHP) for particle random composites using virtual element method, Multiscale stochastic finite element modeling of random elastic heterogeneous materials, Comparison of analytical and numerical models for the thermoelastic behavior of composites reinforced by coated spheres, Combining Galerkin approximation techniques with the principle of Hashin and Shtrikman to derive a new FFT-based numerical method for the homogenization of composites, The poroelastic role of water in cell walls of the hierarchical composite ``softwood, Bounds on size effects in composites via homogenization accounting for general interfaces, Towards scaling laws in random polycrystals, Elastic behavior of composites containing Boolean random sets of inhomogeneities, Numerical determination of representative volumes for granular materials, Effects of microstructure variability on intrinsic fatigue resistance of nickel-base superalloys - a computational micromechanics approach, Mesoscale modelling of crack-induced diffusivity in concrete, A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading, Efficient two-scale FE-FFT-based mechanical process simulation of elasto-viscoplastic polycrystals at finite strains, Considering computational speed vs. accuracy: choosing appropriate mesoscale RVE boundary conditions, Multiscale computational homogenization: review and proposal of a new enhanced-first-order method, Heterogeneous anisotropy index and scaling in two-phase random polycrystals, Wang tiling aided statistical determination of the representative volume element size of random heterogeneous materials, Statistical volume element method for predicting microstructure-constitutive property relations, A NURBS-based generalized finite element scheme for 3D simulation of heterogeneous materials, Effect of microstructural variations on the failure response of a nano-enhanced polymer: a homogenization-based statistical analysis, Scaling function, anisotropy and the size of RVE in elastic random polycrystals, Direct numerical simulations in solid mechanics for understanding the macroscale effects of microscale material variability, A numerical method for homogenization in nonlinear elasticity, A computational investigation of the effective viscosity of short-fiber reinforced thermoplastics by an FFT-based method, Pressure-driven micro-poro-mechanics: a variational framework for modeling the response of porous materials, A multiscale high-cycle fatigue-damage model for the stiffness degradation of fiber-reinforced materials based on a mixed variational framework, Numerical manifold computational homogenization for hydro-dynamic analysis of discontinuous heterogeneous porous media, Effective properties of linear random materials: Application to Al/SiC and resin/glass composites, An adaptive method for homogenization in orthotropic nonlinear elasticity, Replacement relations for elastic composite materials having different matrices and related problems, Learning constitutive relations from indirect observations using deep neural networks, Elastic fields and effective stiffness of ellipsoidal particle composite using the representative unit cell model and multipole expansion method, Finite cluster model and effective conductivity of a composite with non-randomly oriented elliptic inclusions, FFT-based homogenization at finite strains using composite boxels (ComBo), Superaccurate effective elastic moduli via postprocessing in computational homogenization, Analytical representation and efficient computation of the effective conductivity of two‐phase composite materials, An algorithm for generating microstructures of fiber‐reinforced composites with long fibers, Working session: Quantitative stochastic homogenization. Abstracts from the working session held October 16--22, 2022, A wavelet-enhanced adaptive hierarchical FFT-based approach for the efficient solution of microscale boundary value problems, Statistically compatible hyper-reduction for computational homogenization, Spatial and temporal averaging in the homogenisation of the elastodynamic response of periodic laminates, FFT based iterative schemes for composite conductors with uniform boundary conditions, Characterizing digital microstructures by the Minkowski‐based quadratic normal tensor, A variance reduction strategy for numerical random homogenization based on the equivalent inclusion method, A multiscale finite element analysis model for predicting the effect of micro-aeration on the fragmentation of chocolate during the first bite, Effect of non-uniform void distributions on the yielding of metals, A model problem concerning recoverable strains of shape-memory polycrystals, Generalized Continuum Modelling of Crystal Plasticity, A Control Variate Approach Based on a Defect-Type Theory for Variance Reduction in Stochastic Homogenization, Numerical homogenization of elastic and thermal material properties for metal matrix composites (MMC), Unified treatment of microscopic boundary conditions and efficient algorithms for estimating tangent operators of the homogenized behavior in the computational homogenization method, Numerical algorithm of multipole expansion method for conductivity of ellipsoidal particle composite, Learning constitutive relations using symmetric positive definite neural networks, Homogenization theory: periodic and beyond. Abstracts from the workshop held March 14--20, 2021 (online meeting), Novel boundary conditions for strain localization analyses in microstructural volume elements, Automatic generation of statistical volume elements using multibody dynamics and an erosion-based homogenization method, Chiral Cosserat homogenized constitutive models of architected media based on micromorphic homogenization, Formulation and numerical implementation of a variationally consistent multi-scale model based on second-order computational homogenisation at finite strains for quasi-static problems, Geometric partitioning schemes to reduce modeling bias in statistical volume elements smaller than the scale of isotropic and homogeneous size limits, Numerical homogenization: survey, new results, and perspectives, Probability Based Size Effect Representation for Failure in Civil Engineering Structures Built of Heterogeneous Materials, Numerical identification of a viscoelastic substitute model for heterogeneous poroelastic media by a reduced order homogenization approach, A stochastic computational multiscale approach; application to MEMS resonators, Multi Scale Random Sets: From Morphology to Effective Behaviour, Solving phase-field models in the tensor train format to generate microstructures of bicontinuous composites, Optimal Approximation of the First-Order Corrector in Multiscale Stochastic Elliptic PDE, Multilevel Monte Carlo Approaches for Numerical Homogenization, Apparent and effective physical properties of heterogeneous materials: Representativity of samples of two materials from food industry, Effective hyperelastic material parameters from microstructures constructed using the planar Boolean model, Multiscale analysis of composite structures based on higher-order asymptotic homogenization with boundary layer correction, Generating polycrystalline microstructures with prescribed tensorial texture coefficients, Power laws variance scaling of Boolean random varieties, A primal formulation for imposing periodic boundary conditions on conforming and nonconforming meshes, Direct \(\mathrm{FE}^2\) for concurrent multilevel modelling of heterogeneous structures, A dispersive homogenization model for composites and its RVE existence, Microstructure-informed reduced modes synthesized with Wang tiles and the generalized finite element method, A pruning algorithm preserving modeling capabilities for polycrystalline data, Efficient multiscale modeling for woven composites based on self-consistent clustering analysis, Machine learning constitutive models of elastomeric foams, Uncertainty propagation in reduced order models based on crystal plasticity, Bayesian identification and model comparison for random property fields derived from material microstructure, Interface coupling method for the global-local analysis of heterogeneous models: a second-order homogenization-based strategy, A GPU implementation of the PCG method for large-scale image-based finite element analysis in heterogeneous periodic media, Representative Elements for Polydispersed Composites, A fuzzy-stochastic multiscale model for fiber composites, a one-dimensional study, A fast method for solving microstructural problems defined by digital images: a space Lippmann-Schwinger scheme, Determination of RVE size for random composites with local volume fraction variation, Numerical strategy for unbiased homogenization of random materials, Fourier-based schemes with modified Green operator for computing the electrical response of heterogeneous media with accurate local fields, On the size of representative volume element for Darcy law in random media, Deep CNNs as universal predictors of elasticity tensors in homogenization, Identification of `replacement' microstructure for porous medium from thermal conductivity measurements: problem formulation and numerical solution, A continuum micromechanics approach to the elasticity and strength of planar fiber networks: theory and application to paper sheets, Assessment of the equivalent inclusion method for the numerical homogenization of fibrous composites, A new homogenization scheme for beam and plate structures without a priori requirements on boundary conditions, A new boundary condition for homogenization of high-contrast random heterogeneous materials, Local probabilistic homogenization of two-dimensional model foams accounting for micro structural disorder, Periodic three-dimensional mesh generation for particle reinforced composites with application to metal matrix composites, Investigations on the influence of the boundary conditions when computing the effective crack energy of random heterogeneous materials using fast marching methods, An integral framework for computational thermo-elastic homogenization of polycrystalline materials, Extended granular micromechanics approach: a micromorphic theory of degreen, Homogenized elastic response of random fiber networks based on strain gradient continuum models, A Nitsche stabilized finite element method for frictional sliding on embedded interfaces. Part II: Intersecting interfaces, The inclusion-based boundary element method (iBEM) for virtual experiments of elastic composites, Comparison of the finite strain macroscopic behavior and local damage of a soft matrix highly reinforced by spherical or polyhedral particles, Multiscale Homogenization for Linear Mechanics, Effects of cell shape and strut cross-sectional area variations on the elastic properties of three-dimensional open-cell foams, Macroscopic behavior and field fluctuations in viscoplastic composites: second-order estimates versus full-field simulations, Numerical evaluation of the representative volume element for random composites, A review of nonlinear FFT-based computational homogenization methods, Efficient FFT-based upscaling of the permeability of porous media discretized on uniform grids with estimation of RVE size, Micromechanics-based material networks revisited from the interaction viewpoint; robust and efficient implementation for multi-phase composites, Efficient prediction of the effective nonlinear properties of porous material by FEM-cluster based analysis (FCA), On the efficient enforcement of uniform traction and mortar periodic boundary conditions in computational homogenisation, Boundary element method for calculation of effective elastic moduli in 3D linear elasticity, On variability and interdependence of local porosity and local tortuosity in porous materials: a case study for sack paper, Failure model for heterogeneous structures using structured meshes and accounting for probability aspects, Quality improvement of non-manifold hexahedral meshes for critical feature determination of microstructure materials, A multiple level set approach to prevent numerical artefacts in complex microstructures with nearby inclusions within XFEM, Quantification of ergodicity in stochastic homogenization: optimal bounds via spectral gap on Glauber dynamics, Automatic 3-D simulation and micro-stress distribution of polycrystalline metallic materials, Prediction of effective properties for random heterogeneous materials with extrapolation, Nonlinear reduced order homogenization of materials including cohesive interfaces, Numerical modelling of the plasticity induced during diffusive transformation. An ensemble averaging approach for the case of random arrays of nuclei, Numerical bounds for elastic properties of unidirectional non-overlapping fiber reinforced materials, A phase-field method for computational modeling of interfacial damage interacting with crack propagation in realistic microstructures obtained by microtomography, A poro-viscoelastic substitute model of fine-scale poroelasticity obtained from homogenization and numerical model reduction, Micro-to-macro transition accounting for general imperfect interfaces, Numerical simulations and modeling of the effective plastic flow surface of a biporous material with pressurized intergranular voids, Stochastic finite element analysis of composite structures based on mesoscale random fields of material properties, A random field-based method to estimate convergence of apparent properties in computational homogenization, Computational homogenization and micromechanical analysis of textured polycrystalline materials, A stochastic multi-scale approach for the modeling of thermo-elastic damping in micro-resonators, From unit inclusion cell to large representative volume element: comparison of effective elastic properties, Complexity science of multiscale materials via stochastic computations, A Quantitative Central Limit Theorem for the Effective Conductance on the Discrete Torus, Principle of cluster minimum complementary energy of FEM-cluster-based reduced order method: fast updating the interaction matrix and predicting effective nonlinear properties of heterogeneous material, Non-intrusive data learning based computational homogenization of materials with uncertainties, Macrohomogeneity condition for strain gradient homogenization of periodic heterogeneous media with interfacial strong discontinuities, Homogenized moduli and local stress fields of random fiber composites under homogeneous and periodic boundary conditions, Convergence and error analysis of FE-HMM/FE\(^2\) for energetically consistent micro-coupling conditions in linear elastic solids, 3D image-based stochastic micro-structure modelling of foams for simulating elasticity, A sequential addition and migration method for generating microstructures of short fibers with prescribed length distribution, Comparison of current methods for implementing periodic boundary conditions in multi-scale homogenisation, Stochastic elliptic operators defined by non-Gaussian random fields with uncertain spectrum, Macro-scale models for fluid flow in tumour tissues: impact of microstructure properties, Inclusion-based boundary element method for virtual experiments of particulate composites containing arbitrarily shaped inhomogeneities, Exterior statistics based boundary conditions for representative volume elements of elastic composites, An X-FEM and level set computational approach for image-based modelling: Application to homogenization