On a multiscale computational strategy with time and space homogenization for structural mechanics.

A LATIN-based model reduction approach for the simulation of cycling damage ⋮ A parallel and multiscale strategy for the parametric study of transient dynamic problems with friction ⋮ Proper generalized decomposition of time-multiscale models ⋮ Improved Multiscale Computational Strategies for Delamination ⋮ A multiscale extended finite element method for crack propagation ⋮ Multiscale methods for composites: A review ⋮ A manifold learning approach for integrated computational materials engineering ⋮ Generalized spectral decomposition method for solving stochastic finite element equations: invariant subspace problem and dedicated algorithms ⋮ A three-scale domain decomposition method for the 3D analysis of debonding in laminates ⋮ On reduced models in nonlinear solid mechanics ⋮ Proper generalized decomposition for multiscale and~multiphysics problems ⋮ Solution of strongly coupled multiphysics problems using space-time separated representations -- application to thermoviscoelasticity ⋮ Proper generalized decompositions and separated representations for the numerical solution of high dimensional stochastic problems ⋮ Homogenization in finite thermoelasticity ⋮ A dispersive multi-scale crack model for quasi-brittle heterogeneous materials under impact loading ⋮ Reduced order modeling via PGD for highly transient thermal evolutions in additive manufacturing ⋮ A fuzzy-stochastic multiscale model for fiber composites, a one-dimensional study ⋮ A model reduction technique based on the PGD for elastic-viscoplastic computational analysis ⋮ The proper generalized decomposition for the simulation of delamination using cohesive zone model ⋮ A proper generalized decomposition for the solution of elliptic problems in abstract form by using a functional Eckart-Young approach ⋮ Proper general decomposition (PGD) for the resolution of Navier-Stokes equations ⋮ Advanced simulation of models defined in plate geometries: 3D solutions with 2D computational complexity ⋮ Fast simulation of 3D elastic response for wheel-rail contact loading using proper generalized decomposition ⋮ Combining MFS and PGD methods to solve transient heat equation ⋮ A parallel strategy for the multiparametric analysis of structures with large contact and friction surfaces ⋮ Numerical upscaling of parametric microstructures in a possibilistic uncertainty framework with tensor trains ⋮ Weakly intrusive time homogenization technique to deal with pseudo-cyclic coupled thermomechanical problems with uncertainties ⋮ Bridging proper orthogonal decomposition methods and augmented Newton-Krylov algorithms: an adaptive model order reduction for highly nonlinear mechanical problems ⋮ Multi-level a priori hyper-reduction of mechanical models involving internal variables ⋮ The LATIN multiscale computational method and the proper generalized decomposition ⋮ A parallel, multiscale domain decomposition method for the transient dynamic analysis of assemblies with friction ⋮ A priori space-time separated representation for the reduced order modeling of low Reynolds number flows ⋮ A PGD-based homogenization technique for the resolution of nonlinear multiscale problems ⋮ A priori model reduction through proper generalized decomposition for solving time-dependent partial differential equations ⋮ Multi‐scale modeling of heterogeneous structures with inelastic constitutive behaviour ⋮ A multiscale strategy for structural optimization ⋮ Arlequin based PGD domain decomposition ⋮ On a multiscale strategy and its optimization for the simulation of combined delamination and buckling ⋮ Analysis, improvement and limits of the multiscale Latin method ⋮ PGD-based \textit{computational vademecum} for efficient design, optimization and control ⋮ A non-invasive implementation of a mixed domain decomposition method for frictional contact problems ⋮ A multiscale separated representation to compute the mechanical behavior of composites with periodic microstructure ⋮ Recent developments in spectral stochastic methods for the numerical solution of stochastic partial differential equations ⋮ Numerical approach based on the collection of the most significant modes to solve cyclic transient thermal problems involving different time scales ⋮ Multidimensional a priori hyper-reduction of mechanical models involving internal variables ⋮ Assessment of the cost and accuracy of the generalized FEM ⋮ A computational strategy for poroelastic problems with a time interface between coupled physics ⋮ A computational strategy for thermo-poroelastic structures with a time-space interface coupling ⋮ A computational damage micromodel of laminated composites ⋮ A scalable time-space multiscale domain decomposition method: adaptive time scale separation ⋮ On the control of the load increments for a proper description of multiple delamination in a domain decomposition framework ⋮ An enhanced nonlinear multi-scale strategy for the simulation of buckling and delamination on 3D composite plates ⋮ The reference point method, a ``hyperreduction technique: application to PGD-based nonlinear model reduction ⋮ Nonlinear localization strategies for domain decomposition methods: application to post-buckling analyses ⋮ On a mixed and multiscale domain decomposition method ⋮ A new fully coupled two-scales modelling for mechanical problems involving microstructure: the 95/5 technique ⋮ A new computational method for transient dynamics including the low- and the medium-frequency ranges ⋮ A fast and robust sub-optimal control approach using reduced order model adaptation techniques ⋮ On micro--macro interface conditions for micro scale based FEM for inelastic behavior of heterogeneous materials

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• A multiscale computational method with time and space homogenization
• Stability of multi-time step partitioned integrators for first-order finite element systems
• Hierarchical modeling of heterogeneous bodies
• Computational plasticity for composite structures based on mathematical homogenization: Theory and practice
• Multiscale temporal integration
• A multiscale computational approach for contact problems
• Hierarchical modeling of heterogeneous solids
• Prediction of the mechanical behavior of nonlinear heterogeneous systems by multi-level finite element modeling
• Multi-time-step explicit-implicit method for non-linear structural dynamics
• Homogenization and Linear Thermoelasticity
• Multiscale modelling and computational strategies for composites
• Homogenization and damage for composite structures
• Sur une méthode de calcul de structures soumises à des chargements cycliques : l'homogénéisation en temps
• Time-decomposed parallel time-integrators: theory and feasibility studies for fluid, structure, and fluid-structure applications
• Multi‐scale constitutive modelling of heterogeneous materials with a gradient‐enhanced computational homogenization scheme