Search results for "damage model"

showing 6 items of 6 documents

Coupled VEM–BEM Approach for Isotropic Damage Modelling in Composite Materials

2023

Numerical prediction of composite damage behaviour at the microscopic level is still a challenging engineering issue for the analysis and design of modern materials. In this work, we document the application of a recently developed numerical technique based on the coupling between the virtual element method (VEM) and the boundary element method (BEM) within the framework of continuum damage mechanics (CDM) to model the in-plane damage evolution characteristics of composite materials. BEM is a widely adopted and efficient numerical technique that reduces the problem dimensionality due to its underlying formulation. It substantially simplifies the pre-processing stage and decreases the compu…

Boundary Element MethodDamage ModellingModeling and SimulationVirtual Element MethodComposite MaterialsSettore ING-IND/04 - Costruzioni E Strutture AerospazialiComputer Science Applications
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Strain localization and fracture in isotropic damaging materials: a novel augmented-finite element strategy

2022

Isotropic Damage ModelCrack tracking algorithmStrain localizationSettore ICAR/08 - Scienza Delle CostruzioniAugmented-Finite Element Method
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Formulation and validation of a reduced order model of 2D materials exhibiting a two-phase microstructure as applied to graphene oxide

2018

Abstract Novel 2D materials, e.g., graphene oxide (GO), are attractive building blocks in the design of advanced materials due to their reactive chemistry, which can enhance interfacial interactions while providing good in-plane mechanical properties. Recent studies have hypothesized that the randomly distributed two-phase microstructure of GO, which arises due to its oxidized chemistry, leads to differences in nano- vs meso‑scale mechanical responses. However, this effect has not been carefully studied using molecular dynamics due to computational limitations. Herein, a continuum mechanics model, formulated based on density functional based tight binding (DFTB) constitutive results for GO …

Materials scienceFinite element analysiMembrane deflection02 engineering and technologyCondensed Matter Physic010402 general chemistry01 natural scienceslaw.inventionMolecular dynamicsTight bindingContinuum damage modellawNano-MonolayerMechanics of MaterialComposite materialGraphene oxideContinuum mechanicsGrapheneMechanical Engineering021001 nanoscience & nanotechnologyCondensed Matter PhysicsMicrostructureRepresentative volume elementFinite element method0104 chemical sciencesMechanics of MaterialsChemical physicsModel development and validation0210 nano-technology
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Finite elements with embedded interphases for strain localization in quasi-brittle materials

2023

The paper presents a continuous-discontinuous numerical strategy for sim- ulating localized failure in structures made of quasi-brittle materials using finite elements. The strategy is based on observing acting stresses scenarios, when a diffuse degradation is followed by high deformation bands localizing in certain regions of the structure. The numerical strategy should encom- pass both situations in accordance with the material’s constitutive model. This objective is achieved by introducing a thin layer into a finite element at a certain level of the deformation process. In this study, the thin layer is modeled for the first time by an interphase mechanical device whose consti- tutive beh…

Mechanics of MaterialsMechanical EngineeringLocalization Interphase Quasi-brittle materials Isotropic Damage ModelGeneral Materials ScienceSettore ICAR/08 - Scienza Delle Costruzioni
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A multiscale approach to polycrystalline materials damage and failure

2015

A two-scale three-dimensional approach for degradation and failure in polycrystalline materials is presented. The method involves the component level and the grain scale. The damageinduced softening at the macroscale is modelled employing an initial stress boundary element approach. The microscopic degradation is explicitly modelled associating Representative Volume Elements (RVEs) to relevant points of the macro continuum and employing a cohesive-frictional 3D grain-boundary formulation to simulate intergranular degradation and failure in the Voronoi morphology. Macro-strains are downscaled as RVEs' periodic boundary conditions, while overall macro-stresses are obtained upscaling the micro…

Polycrystalline materialMultiscale damage modellingBoundary element methodPolycrystalline materials; Multiscale damage modelling; Micromechanics; Boundary element methodSettore ING-IND/04 - Costruzioni E Strutture AerospazialiMicromechanic
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A model for predicting the mixed-mode fatigue crack growth in a bonded joint

2013

Bonded joints are highly sensitive to the presence of defects and to the degradation phenomena, and this aspect represents the primary obstacle to their use in different structural engineering applications. Delamination in a bonded joint represents, in fact, one of the primary, most common and insidious causes of damage. In this paper, a numerical–experimental study on the crack propagation along the adhesive layer of a bonded joint specimen is carried out. Experimental study is focused on the evaluation of the damage modalities of a bonded joint when the specimens are subject to fatigue load. Experimental tests are compared with the results of several numerical analysis performed in ANSYS …

mixed-mode crack growthfatigue crack propagationSettore ING-IND/17 - Impianti Industriali Meccanicibonded jointSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialeFEM analysiVCCTdamage model
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