Multi-scale boundary element modelling of material degradation and fracture

A damage analysis for brittle materials using stochastic micro-structural information ⋮ Computational homogenization for heterogeneous thin sheets ⋮ The finite element method for the mechanically based model of non-local continuum ⋮ Novel boundary conditions for strain localization analyses in microstructural volume elements ⋮ Multi-scale modelling for bending analysis of heterogeneous plates by coupling BEM and FEM ⋮ BEM multiscale modelling involving micromechanical damage in fibrous composites ⋮ A boundary element formulation to perform elastic analysis of heterogeneous microstructures ⋮ A microstructural model for homogenisation and cracking of piezoelectric polycrystals ⋮ A particle‐based method for mechanical analyses of planar fiber‐based materials ⋮ A 2D RVE formulation by the boundary element method considering phase debonding ⋮ Multiscale cohesive zone modeling of crack propagations in polycrystalline solids ⋮ Grain boundary stresses in elastic materials ⋮ An integral framework for computational thermo-elastic homogenization of polycrystalline materials ⋮ A 2D BEM formulation considering dissipative phenomena and a full coupled multiscale modelling ⋮ Probabilistic fracture mechanics by the boundary element method ⋮ A 2D boundary element formulation to model the constitutive behavior of heterogeneous microstructures considering dissipative phenomena ⋮ Self-consistent linearization of non-linear BEM formulations with quadratic convergence ⋮ On the Homogenization of Nonlinear Shell ⋮ A micromechanics based multiscale model for nonlinear composites ⋮ A three-dimensional cohesive-frictional grain-boundary micromechanical model for intergranular degradation and failure in polycrystalline materials ⋮ Computational methods for fracture in brittle and quasi-brittle solids: state-of-the-art review and future perspectives ⋮ The inclusion-based boundary element method (iBEM) for virtual experiments of elastic composites ⋮ Multiscale modeling of polycrystalline materials: a boundary element approach to material degradation and fracture ⋮ On the homogenization of a nonlinear shell ⋮ A computational framework for low-cycle fatigue in polycrystalline materials ⋮ Micromechanical modelling of cohesive thermoelastic cracking in orthotropic polycrystalline materials ⋮ The role of heterogeneous deformation on damage nucleation at grain boundaries in single phase metals ⋮ FEM/BEM formulation for multi-scale analysis of stretched plates ⋮ Modelling intergranular and transgranular micro-cracking in polycrystalline materials ⋮ Integral equations and nonlocal damage theory: a numerical implementation using the BDEM ⋮ Thermally-induced fracture analysis of polycrystalline materials by using peridynamics

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• A variational principle for gradient plasticity
• Hill condition and overall properties of composites
• Nonlocal models for damage and fracture: Comparison of approaches
• Two scale analysis of heterogeneous elastic-plastic materials with asymptotic homogenization and Voronoi cell finite element model
• Finite polycrystalline elastoplasticity and damage: Multiscale kinematics.
• Simulation of the multi-scale convergence in computational homogenization approaches
• Nonlocal strain-softening model of quasi-brittle materials using boundary element method
• On gradient-enhanced damage and plasticity models for failure in quasi-brittle and frictional materials
• Multi-scale second-order computational homogenization of multi-phase materials: a nested finite element solution strategy
• Multiscale modelling and computational strategies for composites
• A boundary cohesive grain element formulation for modelling intergranular microfracture in polycrystalline brittle materials
• Mechanics of Solid Materials
• Finite-deformation irreversible cohesive elements for three-dimensional crack-propagation analysis
• Comparison of nonlocal approaches in continuum damage mechanics
• Non-local boundary integral formulation for softening damage
• Gradient-enhanced damage modelling of high-cycle fatigue
• Multi‐scale constitutive modelling of heterogeneous materials with a gradient‐enhanced computational homogenization scheme
• A Course on Damage Mechanics
• Bounds for element size in a variable stiffness cohesive finite element model
• A multi-level computational model for multi-scale damage analysis in composite and porous materials