Transformation field analysis of inelastic composite materials

A MODEL FOR ANALYSIS OF ARBITRARY COMPOSITE AND POROUS MICROSTRUCTURES WITH VORONOI CELL FINITE ELEMENTS, A nonintrusive stochastic multiscale solver, Multiscale Modeling and Simulation of Composite Materials and Structures, Cauchy and Cosserat Equivalent Continua for the Multiscale Analysis of Periodic Masonry Walls, Micromechanics Of Composites, A model-reduction approach in micromechanics of materials preserving the variational structure of constitutive relations, Multiscale design of nonlinear materials using reduced-order modeling, Hybrid impotent-incompatible eigenstrain based homogenization, A regularized phenomenological multiscale damage model, Accelerated time integrator for multiple time scale homogenization, <scp>A</scp> second‐order reduced multiscale method for nonlinear shell structures with orthogonal periodic configurations, <scp>Data</scp>‐physics driven reduced order homogenization, A reduced order model for geometrically parameterized two-scale simulations of elasto-plastic microstructures under large deformations, Fast construction of cluster interaction matrix for data-driven cluster-based reduced-order model and prediction of elastoplastic stress-strain curves and yield surface, Enhanced transformation field analysis for reduced-order modeling of problems with cohesive interfaces, FEM-CM as a hybrid approach for multiscale modeling and simulation of ferroelectric boundary value problems, Machine‐learning‐based asymptotic homogenisation and localisation considering boundary layer effects, Statistically compatible hyper-reduction for computational homogenization, Adaptive spatiotemporal dimension reduction in concurrent multiscale damage analysis, An introduction to kernel and operator learning methods for homogenization by self-consistent clustering analysis, Elastic and inelastic local strain fields in composites with coated fibers or particles: theory and validation, A mixture-compatible theory of chemothermal deposition and expansion in n-constituent finitely deforming composite materials with initially circularly cylindrical microstructures, Multi‐scale modeling of heterogeneous structures with inelastic constitutive behaviour, Model reduction by mean-field homogenization in viscoelastic composites. I. Primal theory, Model reduction by mean-field homogenization in viscoelastic composites. II. Application to rigidly reinforced solids, A coupled two-scale computational scheme for the failure of periodic quasi-brittle thin planar shells and its application to masonry, Homogenization of linear and of debonding composites usign the BEM, Transformation field analysis of damage evolution in composite materials., Simplified coupled chemo-mechanical modeling of cement pastes behavior subjected to combined leaching and external sulfate attack, A model-reduction approach to the micromechanical analysis of polycrystalline materials, Strength of periodic elastic--brittle composites evaluated through homogenization and parameter identification., A second-order reduced multiscale approach for non-linear axisymmetric structures with periodic configurations, A high-order three-scale reduced homogenization for nonlinear heterogeneous materials with multiple configurations, Ductile sliding between mineral crystals followed by rupture of collagen crosslinks: experimentally supported micromechanical explanation of bone strength, Implementation of the transformation field analysis for inelastic composite materials, Homogenization techniques for the analysis of porous SMA, Adaptivity for clustering-based reduced-order modeling of localized history-dependent phenomena, A nonlinear manifold-based reduced order model for multiscale analysis of heterogeneous hyperelastic materials, Efficient computational homogenization of simple elastoplastic microstructures using a shear band approach, Automatised selection of load paths to construct reduced-order models in computational damage micromechanics: from dissipation-driven random selection to Bayesian optimization, Extended Hashin-Shtrikman variational principles., Complementary energy based FE modelling of coupled elasto-plastic and damage behavior for continuum microstructure computations, Mathematical foundations of FEM-cluster based reduced order analysis method and a spectral analysis algorithm for improving the accuracy, Quantification of structural and material failure mechanisms across different length scales: from instability to brittle-ductile transitions, Mathematical homogenization of inelastic dissipative materials: a survey and recent progress, Reduced order variational multiscale enrichment method for thermo-mechanical problems, An improved mean-field homogenization model for the three-dimensional elastic properties of masonry, A micromechanical analysis of elastoplastic behavior of porous materials, Reduced-order multiscale modeling of plastic deformations in 3D alloys with spatially varying porosity by deflated clustering analysis, Optimal eigenstress fields in layered structures, Viscous interfaces as source for material creep: a continuum micromechanics approach, Self-consistent clustering analysis for multiscale modeling at finite strains, Efficient two-scale simulations of engineering structures using the Hashin-Shtrikman type finite element method, Embedded unit cell homogenization model for localized non-periodic elasto-plastic zones, Efficient multiscale modeling for woven composites based on self-consistent clustering analysis, Computational homogenization of composites experiencing plasticity, cracking and debonding phenomena, Multiple spatio-temporal scale modeling of composites subjected to cyclic loading, A BEM formulation for homogenization of composites with randomly distributed fibers., A theory of plasticity for carbon nanotube reinforced composites, A numerical study of different projection-based model reduction techniques applied to computational homogenisation, Mean-field homogenization of elasto-viscoplastic composites based on a general incrementally affine linearization method, Plastic deformation modes in perforated sheets and their relation to yield and limit surfaces, Multi-scale analysis in elasto-viscoplasticity coupled with damage, Multiscale damage contact-friction model for periodic masonry walls, A variational formulation for the incremental homogenization of elasto-plastic composites, A multilevel finite element method (FE\(^{2}\)) to describe the response of highly nonlinear structures using generalized continua., A micromechanics based multiscale model for nonlinear composites, Multiple scale computational model for damage in composite materials, Numerically explicit potentials for the homogenization of nonlinear elastic heterogeneous materials, The competition of grain size and porosity in the viscoplastic response of nanocrystalline solids, Uniform strain fields and microstructure-independent relations in nonlinear elastic fibrous composites, A coupled thermo-hydro-mechanical-damage model for concrete subjected to moderate temperatures, New estimates of overall properties of heterogeneous solids, Multi-laminate plastic-strain organization for non-uniform TFA modeling of poly-crystal regularized plastic flow, Wavelet based reduced order models for microstructural analyses, Phase mean strain and stress estimates in possibly multi-continuous composites under affine elastic-like behavior, On calibration and validation of eigendeformation-based multiscale models for failure analysis of heterogeneous systems, Efficient prediction of the effective nonlinear properties of porous material by FEM-cluster based analysis (FCA), Learning constitutive models from microstructural simulations via a non-intrusive reduced basis method, High-order virtual element method for the homogenization of long fiber nonlinear composites, A deep material network for multiscale topology learning and accelerated nonlinear modeling of heterogeneous materials, A simple and flexible model order reduction method for FFT-based homogenization problems using a sparse sampling technique, FEM-cluster based reduction method for efficient numerical prediction of effective properties of heterogeneous material in nonlinear range, Fiber orientation interpolation for the multiscale analysis of short fiber reinforced composite parts, Efficient and accurate two-scale FE-FFT-based prediction of the effective material behavior of elasto-viscoplastic polycrystals, Integration efficiency for model reduction in micro-mechanical analyses, Fourier-accelerated nodal solvers (FANS) for homogenization problems, Effective pressure-sensitive elastoplastic behavior of particle-reinforced composites and porous media under isotropic loading, A geometrically adapted reduced set of frequencies for a FFT-based microstructure simulation, Determination of the effective elastic-plastic response of metal-ceramic composites, Data science for finite strain mechanical science of ductile materials, Reduced order computational continua, A multiscale mean-field homogenization method for fiber-reinforced composites with gradient-enhanced damage models, An inelastic homogenization framework for layered materials with planes of weakness, A computational multi-scale model for the stiffness degradation of short-fiber reinforced plastics subjected to fatigue loading, A novel second-order reduced homogenization approach for nonlinear thermo-mechanical problems of axisymmetric structures with periodic micro-configurations, A GFEM-based reduced-order homogenization model for heterogeneous materials under volumetric and interfacial damage, Adaptive selection of reference stiffness in virtual clustering analysis, Optimization clustering technique for piecewise uniform transformation field analysis homogenization of viscoplastic composites, Two-stage data-driven homogenization for nonlinear solids using a reduced order model, Cosserat model for periodic masonry deduced by nonlinear homogenization, Multiresolution clustering analysis for efficient modeling of hierarchical material systems, Nonlinear reduced order homogenization of materials including cohesive interfaces, A nonlinear homogenization procedure for periodic masonry, Multiscale poro-elasticity of densifying calcium-silicate hydrates in cement paste: an experimentally validated continuum micromechanics approach, A multiscale approach for modeling progressive damage of composite materials using fast Fourier transforms, A high-order three-scale reduced asymptotic approach for thermo-mechanical problems of nonlinear heterogeneous materials with multiple spatial scales, An assessment of multiscale asymptotic expansion method for linear static problems of periodic composite structures, A multiscale high-cycle fatigue-damage model for the stiffness degradation of fiber-reinforced materials based on a mixed variational framework, Self-consistent clustering analysis: an efficient multi-scale scheme for inelastic heterogeneous materials, Homogenization of elastic-viscoplastic composites by the mixed TFA, A framework for data-driven analysis of materials under uncertainty: countering the curse of dimensionality, Sparse and scalable eigenstrain-based reduced order homogenization models for polycrystal plasticity, Model order reduction of nonlinear homogenization problems using a Hashin-Shtrikman type finite element method, Heterogeneous crystal and poly-crystal plasticity modeling from a transformation field analysis within a regularized Schmid law, On the effective behavior of nonlinear inelastic composites. I: Incremental variational principles, Eigendeformation-based reduced order homogenization for failure analysis of heterogeneous materials, Clustering discretization methods for generation of material performance databases in machine learning and design optimization, 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, Fast calculation of interaction tensors in clustering-based homogenization, A representative volume element network (RVE-net) for accelerating RVE analysis, microscale material identification, and defect characterization, A dual homogenization and finite element study on the in-plane local and global behavior of a nonlinear coated fiber composite, Thermal stresses in rectangular concrete beams, resulting from constraints at microstructure, cross-section, and supports, Micromechanics versus macromechanics: A combined approach for metal matrix composite constitutive modelling, Micromechanics and homogenization of inelastic composite materials with growing cracks., Computational analysis of nonlinear composite structures using the nonuniform transformation field analysis, Learning constitutive models from microstructural simulations via a non-intrusive reduced basis method: extension to geometrical parameterizations, Application of the variational EIV approach to linear viscoelastic phases governed by several internal variables -- examples with the generalized Maxwell law, On the performance of domain decomposition methods for modeling heterogenous materials