Search results for "SIMULATION"

showing 10 items of 5095 documents

Pre-Stressed Sub-Surface Contribution on Bulk Diffusion in Metallic Solids

2011

Our recent modelling works and corresponding numerical simulations realized to describe the UO2 oxidation processes confirm the theory showing that an applied mechanical strain can strongly affect the local oxygen diffusion in a stressed solid. This result allows us to assume that stress field, previously applied at the surface of a metallic sample on several microns, will delay the degradation during its oxidation. Considering this hypothesis, we implemented a FEM simulation code developed in our laboratory to numerically investigate some different stress fields applied on a sample sub-surface, that might significantly modify the volume diffusion of oxygen during the oxidation process. The…

Materials scienceFEM Simulation[ SPI.MAT ] Engineering Sciences [physics]/MaterialsFOS: Physical scienceschemistry.chemical_element02 engineering and technologyPhysics - Classical Physics Surface Treatment01 natural sciences[SPI.MAT]Engineering Sciences [physics]/MaterialsMetalStress (mechanics)[PHYS.MECA.MEMA]Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph]0103 physical sciences[SPI.MECA.MEMA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph]General Materials ScienceDiffusion (business)010302 applied physicsZirconiumCondensed Matter - Materials ScienceRadiationMaterials Science (cond-mat.mtrl-sci)Classical Physics (physics.class-ph)Bonding in solidsMechanics[CHIM.MATE]Chemical Sciences/Material chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsDurabilityFinite element methodStress fieldchemistryvisual_art[ CHIM.MATE ] Chemical Sciences/Material chemistry[ SPI.MECA.MEMA ] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph][ PHYS.MECA.MEMA ] Physics [physics]/Mechanics [physics]/Mechanics of materials [physics.class-ph]visual_art.visual_art_medium Stress-Diffusion Coupling Zirconium0210 nano-technology
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A phase-field model for strain localization analysis in softening elastoplastic materials

2019

Abstract The present paper deals with the localization of strains in those structures consisting of materials exhibiting plastic softening response. It is assumed that strain localization develops in a finite thickness band separated from the remaining part of the structure by weak discontinuity surfaces. In view of the small thickness of the band with respect to the dimensions of the structure, the interphase concept is used for the mechanical modeling of the localization phenomenon. We propose a formulation for the quasi-static modeling of strain localization based on a phase-field approach. In this sense, the localization band is smeared over the volume of the structure and a smooth tran…

Materials scienceField (physics)Applied MathematicsMechanical EngineeringPhase (waves)02 engineering and technologyBendingMechanics021001 nanoscience & nanotechnologyCondensed Matter PhysicsInstabilityDiscontinuity (linguistics)020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsPhase-field Elastoplasticity Softening Strain localizationModeling and SimulationGeneral Materials ScienceInterphaseSettore ICAR/08 - Scienza Delle Costruzioni0210 nano-technologySofteningFinite thicknessInternational Journal of Solids and Structures
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Thermal-electrical-mechanical simulation of the nickel densification by Spark Plasma Sintering. Comparison with experiments

2016

Abstract Spark Plasma Sintering is a non-conventional process of the powder metallurgy field which uses a high electrical current to rapidly produce fully dense materials. In the present paper, a thermal-electrical-mechanical model developed on ABAQUS Software is proposed to simulate the densification of a nickel disk. A compaction model, studied in [Wolff, C., Mercier, S., Couque, H., Molinari, A., 2012. Modeling of conventional hot compaction and spark plasma sintering based on modified micromechanical models of porous materials. Mechanics of Materials 49 (0), 72–91. URL http://www.sciencedirect.com/science/article/pii/S0167663611002195 ], has been used to reproduce the densification of t…

Materials scienceField (physics)CompactionSpark plasma sinteringchemistry.chemical_element02 engineering and technologyNickelPowder metallurgy[SPI.MECA.MEMA]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Mechanics of materials [physics.class-ph]ThermalForensic engineering[SPI.GPROC]Engineering Sciences [physics]/Chemical and Process EngineeringGeneral Materials ScienceComposite materialInstrumentationSpark Plasma SinteringMicromechanical models020502 materials021001 nanoscience & nanotechnologyStrength of materialsNickel0205 materials engineeringchemistryMechanics of Materials0210 nano-technologyPorous mediumSimulationMechanics of Materials
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Resolving Point Defects in the Hydration Structure of Calcite (10.4) with Three-Dimensional Atomic Force Microscopy

2018

It seems natural to assume that defects at mineral surfaces critically influence interfacial processes such as the dissolution and growth of minerals in water. The experimental verification of this claim, however, is challenging and requires real-space methods with utmost spatial resolution, such as atomic force microscopy (AFM). While defects at mineral-water interfaces have been resolved in 2D AFM images before, the perturbation of the surrounding hydration structure has not yet been analyzed experimentally. In this Letter, we demonstrate that point defects on the most stable and naturally abundant calcite (10.4) surface can be resolved using high-resolution 3D AFM-even within the fifth h…

Materials scienceField (physics)General Physics and Astronomy02 engineering and technology53001 natural sciences114 Physical sciencesDEFLECTION SENSORMolecular dynamicschemistry.chemical_compoundDISSOLUTION0103 physical sciencesWATERFIELD010306 general physicsImage resolutionDissolutionCalciteMineralResolution (electron density)021001 nanoscience & nanotechnologyCrystallographic defectSIMULATIONSchemistryRESOLUTIONChemical physicsMOLECULAR-DYNAMICS0210 nano-technology
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Forming of aluminum foam sandwich panels: Numerical simulations and experimental tests

2006

Abstract The forming of the completed aluminium foam sandwich (AFS) panels would determine an improvement in the manufacturing of parts and panels. In this paper the authors have investigated the formability of AFS through experiments and numerical simulations. As far as the former are concerned, commercially prepared panels have been considered and bending and stamping processes have been taken into account. In addition, FEM analyses have been developed, utilizing a porous material model following the evolution of the material density throughout the forming processes.

Materials scienceFoams AFS FEMBending (metalworking)business.industryMetals and AlloysForming processesMetal foamStructural engineeringStampingIndustrial and Manufacturing EngineeringFinite element methodComputer Science ApplicationsAluminium foam sandwichModeling and SimulationCeramics and CompositesFormabilityComposite materialbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di LavorazioneSandwich-structured compositeJournal of Materials Processing Technology
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Infrared thermography-based evaluation of the elastic-plastic J-integral to correlate fatigue crack growth data of a stainless steel

2019

Abstract The elastic-plastic J-integral is adopted to correlate fatigue crack growth data of ductile metals. An analytical link is known to exist between the J-integral and the strain energy density averaged in a control volume embracing the crack tip. On the other hand, the strain energy fluctuation is the source of temperature variations close to a fatigue crack tip of a metal material; hence the possibility to measure the J-integral from infrared thermographic scanning at the crack tip is envisaged and it is the focus of this paper. It is proposed that the elastic component of the J-integral is derived from a thermoelastic stress analysis, while the plastic component of the J-integral is…

Materials scienceFracture mechanic02 engineering and technologyIndustrial and Manufacturing EngineeringStrain energyStress (mechanics)Thermoelastic damping0203 mechanical engineeringThermoelastic Stress AnalysisGeneral Materials ScienceComposite materialFatigueJ-integralCrack tip plasticityMechanical EngineeringEnergy methodTemperatureStrain energy density functionFracture mechanicsParis' law021001 nanoscience & nanotechnologyFinite element method020303 mechanical engineering & transportsMechanics of MaterialsModeling and SimulationFracture mechanics Crack tip plasticity Thermoelastic Stress Analysis Energy methods Fatigue Temperature J-integralThermography0210 nano-technology
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Cohesive–frictional interface constitutive model

2009

AbstractIn the framework of numerical analysis of joined bodies, the present paper is devoted to the constitutive modeling, via an interface kinematic formulation, of mechanical behaviour of internal adhesive layers. The proposed interface constitutive model couples a cohesive behaviour, based on the damage mechanics theory, with a frictional one, defined in a non-associative plasticity framework. Namely, the interface formulation follows the transition of the adhesive material from the sound elastic condition to the fully cracked one. This formulation is able to model, by means of a specific interpretation of the damage variable and in a relevant mathematical setting, the interface interme…

Materials scienceFrictionPlasticityConstitutive equationMonotonic functionKinematicsPlasticityDiscontinuity (geotechnical engineering)Materials Science(all)Damage mechanicsModelling and SimulationJoined-solidsGeneral Materials ScienceFEMbusiness.industryNumerical analysisMechanical EngineeringApplied MathematicsStructural engineeringCondensed Matter PhysicsFinite element methodDamageMechanics of MaterialsModeling and SimulationJoined-solids Interface model Cohesion Friction Damage Plasticity FEMCohesionSettore ICAR/08 - Scienza Delle CostruzionibusinessInterface modelInternational Journal of Solids and Structures
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Burner backflow reduction in regeneration furnace

2011

In the present case from the steel industry, waste hydrochloric acid from the pickling process is regenerated using spray roasting. The process is driven by four burners placed symmetrically along the periphery of the cylindrical main section of the reactor. Severe problems with gas backflow and sintering of iron oxide inside the burner chamber have led to a complete shut down of the process 1-2 times every week, which is a frequency which significantly affects the productivity. In this study the influence of a kick-out on the gas flow in the vicinity of the burner chamber is investigated numerically. It is shown that the kick-out geometry creates a vortical low pressure region preventing t…

Materials scienceGeneral Computer ScienceFluid Mechanics and AcousticsMetallurgyIron oxideSinteringStrömningsmekanik och akustikInflowchemistry.chemical_compoundchemistryModeling and SimulationPicklingCombustorHydrochloric acid regenerationBackflowRoasting
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Numerical investigation of the mechanical properties of a novel hybrid polymer composite reinforced with graphene and MXene nanosheets

2020

Abstract This paper presents a numerical investigation of the elastic properties of a novel hybrid polymer composite reinforced with graphene and MXene nanosheets. A finite element computational model was developed to analyze the mechanical properties of a new polymer hybrid composite reinforced with MXene and graphene taking into account the properties of the 2D nanosheets, different aspect ratios, placement options and volume fractions of nanoreinforcements, as well as the interaction effects between the nanofillers and the surrounding polymer matrix. Using the developed numerical model, the influences of the interface layer properties, MXene and graphene aspect ratio, alignment and volum…

Materials scienceGeneral Computer SciencePolymer nanocompositeComposite numberGeneral Physics and Astronomy02 engineering and technology010402 general chemistryOrthotropic material01 natural scienceslaw.inventionlawGeneral Materials ScienceComposite materialchemistry.chemical_classificationGraphenehybrid composites MXene graphene numerical simulation elastic propertiesGeneral ChemistryPolymer021001 nanoscience & nanotechnologyAspect ratio (image)0104 chemical sciencesComputational MathematicschemistryMechanics of MaterialsVolume fraction0210 nano-technologyMXenesComputational Materials Science
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Gas Transport in Mixed Matrix Membranes: Two Methods for Time Lag Determination

2020

The most widely used method to measure the transport properties of dense polymeric membranes is the time lag method in a constant volume/pressure increase instrument. Although simple and quick, this method provides only relatively superficial, averaged data of the permeability, diffusivity, and solubility of gas or vapor species in the membrane. The present manuscript discusses a more sophisticated computational method to determine the transport properties on the basis of a fit of the entire permeation curve, including the transient period. The traditional tangent method and the fitting procedure were compared for the transport of six light gases (H2, He, O2, N2, CH4, and CO2) and ethane an…

Materials scienceGeneral Computer ScienceResidual gas analyzerThermodynamics02 engineering and technology010402 general chemistryThermal diffusivity01 natural sciencesMethanelcsh:QA75.5-76.95Theoretical Computer Sciencechemistry.chemical_compoundGas separationSolubilitygas separationMOFOn-line mass spectrometryApplied Mathematicsmixed gas diffusiondiffusionPermeation021001 nanoscience & nanotechnology0104 chemical sciencesMembranechemistryTime lag methodtransport phenomenaModeling and Simulationmixed matrix membraneslcsh:Electronic computers. Computer science0210 nano-technologyTransport phenomenaComputation
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