An extended model for void growth and coalescence

Micromechanics of coalescence in ductile fracture, An approximate strength criterion of porous materials with a pressure sensitive and tension-compression asymmetry matrix, Plasticity and fracture of martensitic boron steel under plane stress conditions, Implicit integration procedure for viscoplastic Gurson 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 modified Gurson model to account for the influence of the lode parameter at high triaxialities, Modified GTN model for a broad range of stress states and application to ductile fracture, 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, Unit cell simulations and porous plasticity modelling for strongly anisotropic FCC metals, 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, On the predictive capabilities of the shear modified Gurson and the modified Mohr-Coulomb fracture models over a wide range of stress triaxialities and Lode angles, Mode I fracture of sheet metal, A multiresolution continuum simulation of the ductile fracture process, On the effect of stress triaxiality on void coalescence, Modeling of hydrogen-assisted ductile crack propagation in metals and alloys, A micromechanics-based modification of the Gurson criterion by using Eshelby-like velocity fields, Phenomenological method for fracture, An efficient 3D implicit approach for the thermomechanical simulation of elastic-viscoplastic materials submitted to high strain rate and damage, Numerical failure analysis of a stretch-bending test on dual-phase steel sheets using a phenomenological fracture model, Grain boundary versus transgranular ductile failure, Explicit numerical study of softening in porous ductile solids, Modelling of the elasto-viscoplastic damage behaviour of glassy polymers, 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 micromechanics based damage model for composite materials, Void growth and coalescence in ductile solids with stage III and stage IV strain hardening, Development of the local approach to fracture over the past 25 years: theory and applications, A variational void coalescence model for ductile metals, A constitutive model for plastically anisotropic solids with non-spherical voids, On using a dual bound approach to characterize the yield behaviour of porous ductile materials containing void clusters, Numerical simulations of void linkage in model materials using a nonlocal ductile damage approximation, A note on the micromechanics of plastic yield of porous solids, Modelling of plastic flow localisation and damage development in friction stir welded 6005A aluminium alloy using physics based strain hardening law, Relevance of incorporating cavity shape change in modelling the ductile failure of metals, Macroscopic yield criteria for plastic anisotropic materials containing spheroidal voids, Yield criterion and finite strain behavior of random porous isotropic materials, Numerical homogenisation of an elasto-plastic model-material with large elastic strains: macroscopic yield surfaces and the Eulerian normality rule, A Computational Methodology for Modeling Ductile Fracture, Size effect on void coalescence under intense shear, Modification of the Gurson model for shear failure, On the numerical integration of an advanced Gurson model, A constitutive model for elastoplastic solids containing primary and secondary voids, Void growth to coalescence in a non-local material, On damage theory of a cohesive medium, Porous materials with two populations of voids under internal pressure. I. Instantaneous constitutive relations, Porous materials with two populations of voids under internal pressure. II. Growth and coalescence of voids, Effect of a shear modified Gurson model on damage development in a FSW tensile specimen, Locally enhanced Voronoi cell finite element model (LE-VCFEM) for simulating evolving fracture in ductile microstructures containing inclusions, A CDM approach of ductile damage with plastic compressibility, A simple damage-accumulation model for constraint effects on ductile fracture, Numerical study on void growth in rate and temperature dependent solids, Effective elastic moduli of two-dimensional solids with distributed cohesive microcracks, Weakly nonlinear fracture mechanics: Experiments and theory, Void growth and coalescence in single crystals, Hybrid experimental-numerical analysis of basic ductile fracture experiments for sheet metals, Anisotropic tensile failure of metals by the strain localization theory: an application to a high-strength aluminium alloy, Homogenized Gurson-type behavior equations for strain rate sensitive materials, A micromorphic model for the multiple scale failure of heterogeneous materials, The size dependence of micro-toughness in ductile fracture, A multiscale framework for localizing microstructures towards the onset of macroscopic discontinuity, Implementation of an elastic–viscoplastic ductile model for the numerical simulation of the ductile crack growth in notched tensile and Charpy impact tests, A finite-strain model for anisotropic viscoplastic porous media. I : Theory, A meshless method for ductile fracture, Consistent integration of the constitutive equations of Gurson materials under adiabatic conditions, Effect of Lode parameter on plastic flow localization after proportional loading at low stress triaxialities, Prediction of ductile fracture in tension by bifurcation, localization, and imperfection analyses, Damage initiation and growth in metals. Comparison between modelling and tomography experiments, Constitutive relations and their time integration for anisotropic elasto-plastic porous materials, Effect of inner gas pressure on the elastoplastic behavior of porous materials: A second-order moment micromechanics model, Temperature-dependent mechanical behaviour of PVDF: Experiments and numerical modelling, Theoretical study of void closure in nonlinear plastic materials, An overview of application of micromechanical models in ductile fracture analysis of welded joints, Homogenization-based continuum plasticity-damage model for ductile failure of materials containing heterogeneities, An evaluation of the failure modes transition and the Christensen ductile/brittle failure theory using molecular dynamics

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• An analysis of ductile rupture modes at a crack tip
• Interaction of very small voids with larger voids
• Approximate models for ductile metals containing non-spherical voids -- case of axisymmetric prolate ellipsoidal cavities
• Constitutive models for porous materials with evolving microstructure
• Ductile crack growth -- I. A numerical study using computational cells with microstructurally-based length scales
• A computational approach to ductile crack growth under large scale yielding conditions
• Ductile crack growth. II: Void nucleation and geometry effects on macroscopic fracture behavior
• Studies of void growth in a thin ductile layer between ceramics
• Verification of the transferability of micromechanical parameters by cell model calculations with visco-plastic materials
• A self-consistent approach to coalescence of cavities in inhomogeneously voided ductile solids
• Modeling void nucleation and growth within periodic clusters of particles
• Material Failure by Void Growth to Coalescence