scientific article; zbMATH DE number 1086874

Micromechanics of coalescence in ductile fracture, A new technique for finite element limit-analysis of Hill materials, with an application to the assessment of criteria for anisotropic plastic porous solids, An approximate strength criterion of porous materials with a pressure sensitive and tension-compression asymmetry matrix, Analytic plastic potential for porous aggregates with matrix exhibiting tension-compression asymmetry, Chiral Cosserat homogenized constitutive models of architected media based on micromorphic homogenization, A homogenization-based constitutive model for isotropic viscoplastic porous media, Micromorphic homogenization of a porous medium: elastic behavior and quasi-brittle damage, The thermodynamics of gradient elastoplasticity, The effect of voids shape on hypervelocity cylindrical cavity expansion and shock waves formation in transversely isotropic porous materials, Assessment of hollow spheroid models for ductile failure prediction by limit analysis and conic programming, Coalescence of voids by internal necking: theoretical estimates and numerical results, A bipotential-based limit analysis and homogenization of ductile porous materials with non-associated Drucker-Prager matrix, A modified Gurson model to account for the influence of the lode parameter at high triaxialities, Theoretical estimates for flat voids coalescence by internal necking, Prediction of shear-dominated ductile fracture in a butterfly specimen using a model of plastic porous solids including void shape effects, Integration of a particle-based homogenization theory into a general damage-based constitutive model to improve the modelling of void nucleation to coalescence, The growth and coalescence of ellipsoidal voids in plane strain under combined shear and tension, Multiscale analysis of composite structures based on higher-order asymptotic homogenization with boundary layer correction, Mode I fracture of sheet metal, Numerical limit analysis bounds for ductile porous media with oblate voids, An assessment of the role of the third stress invariant in the Gurson approach for ductile fracture, An approximate yield criterion for porous single crystals, Numerical assessment, implementation and application of an extended Gurson model accounting for void size effects, A micromechanics-based modification of the Gurson criterion by using Eshelby-like velocity fields, Estimation of material properties for linear elastic strain gradient effective media, Analytical yield criterion for an anisotropic material containing spherical voids and exhibiting tension-compression asymmetry, A first-order strain gradient damage model for simulating quasi-brittle failure in porous elastic solids, A homogenized macroscopic criterion for shakedown analysis of ductile porous media with kinematical hardening matrix, Some new applications of a second-gradient model for porous ductile materials, A second-order strain gradient fracture model for the brittle materials with micro-cracks by a multiscale asymptotic homogenization, Chiral Cosserat model for architected materials constructed by homogenization, Grain boundary versus transgranular ductile failure, Ductile void growing in micromorphic GLPD porous plastic solids containing two populations of cavities with different sizes, Application of Continuum Damage Mechanics in discontinuous crack formation: Forward extrusion chevron predictions, Micromechanical analysis on the influence of the Lode parameter on void growth and coalescence, Void shape effects and voids starting from cracked inclusion, Failure by void coalescence in metallic materials containing primary and secondary voids subject to intense shearing, Void growth and coalescence in anisotropic plastic solids, A local viewpoint for evaluating the influence of stress triaxiality and Lode angle on ductile failure and hardening, A micromechanics based damage model for composite materials, Void growth and coalescence in ductile solids with stage III and stage IV strain hardening, A constitutive model for plastically anisotropic solids with non-spherical voids, Continuum model of microstructure induced softening for strain gradient materials, Modelling of plastic flow localisation and damage development in friction stir welded 6005A aluminium alloy using physics based strain hardening law, Homogenized elastic response of random fiber networks based on strain gradient continuum models, Relevance of incorporating cavity shape change in modelling the ductile failure of metals, Computational investigation into the role of localisation on yield of a porous ductile solid, Macroscopic yield criteria for plastic anisotropic materials containing spheroidal voids, Yield criterion and finite strain behavior of random porous isotropic materials, A Computational Methodology for Modeling Ductile Fracture, Topology optimization of flexoelectric composites using computational homogenization, Modification of the Gurson model for shear failure, Identification of scale-independent material parameters in the relaxed micromorphic model through model-adapted first order homogenization, A constitutive model for elastoplastic solids containing primary and secondary voids, Hardness-packing density scaling relations for cohesive-frictional porous materials, An extended model for void growth and coalescence, On damage theory of a cohesive medium, Effect of a shear modified Gurson model on damage development in a FSW tensile specimen, Plastic potentials for anisotropic porous solids, Gradient constitutive relations: numerical aspects and application to gradient damage, A CDM approach of ductile damage with plastic compressibility, Considering computational speed vs. accuracy: choosing appropriate mesoscale RVE boundary conditions, Limit analysis and numerical modeling of spherically porous solids with Coulomb and Drucker-Prager matrices, Void growth and coalescence in single crystals, Strain gradient elastic homogenization of bidimensional cellular media, Numerical simulation of ductile fracture with the Rousselier constitutive law, Damage evolution around shear loaded intervoid ligaments in plane strain and plane stress, A new numerical implementation of a second-gradient model for plastic porous solids, with an application to the simulation of ductile rupture tests, A finite-strain model for anisotropic viscoplastic porous media. I : Theory, Numerical implementation and assessment of the GLPD micromorphic model of ductile rupture, Constitutive relations and their time integration for anisotropic elasto-plastic porous materials, Homogenization-based continuum plasticity-damage model for ductile failure of materials containing heterogeneities, Numerical implementation and assessment of a phenomenological nonlocal model of ductile rupture, Macrohomogeneity condition for strain gradient homogenization of periodic heterogeneous media with interfacial strong discontinuities, Continuum thermomechanics of nonlinear micromorphic, strain and stress gradient media, Constitutive equations for porous plane-strain gradient elasticity obtained by homogenization, A new model for porous nonlinear viscous solids incorporating void shape effects I: Theory, A new model for porous nonlinear viscous solids incorporating void shape effects II: Numerical validation, Behaviour of voids in a shear field, Limit analysis and Gurson's model, Analytical applications and effective properties of a second gradient isotropic elastic material model, Limit analysis and homogenization of porous materials with Mohr-Coulomb matrix. I: Theoretical formulation