Search results for " Simulation"

showing 10 items of 4034 documents

Calculation of the elastic–plastic strain energy density under cyclic and random loading

2001

Abstract The paper presents a method of identification and calculation of the components of strain energy density under cyclic and random loading causing elastic–plastic strain in the material. The method consists in integration of the history of the strain instantaneous power.

Materials scienceStrain (chemistry)business.industryMechanical EngineeringInfinitesimal strain theoryStrain energy density functionStructural engineeringIndustrial and Manufacturing EngineeringStrain energyElastic plasticCondensed Matter::Materials ScienceMechanics of MaterialsModeling and SimulationEnergy densityGeneral Materials ScienceComposite materialbusinessInternational Journal of Fatigue
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Empirical model for stress ratio effect on fatigue delamination growth rate in composite laminates

2004

An empirical model is proposed for the stress ratio effect on the fatigue delamination growth rate in composite laminates under single-mode loading, intending to provide a simple and accurate description tool in engineering application. The model is based on heuristic considerations of damage accumulation ahead of the crack. Linear cumulative assumption is used for damage estimation. Comparison of the prediction based on the proposed model with the test results for different carbon, glass, and alumina fibre-reinforced composites at several stress ratios shows reasonable agreement.

Materials scienceStress ratioMechanical EngineeringDelaminationComposite laminatesIndustrial and Manufacturing EngineeringdelaminationStress (mechanics)fatigue crack growthMechanics of MaterialsModeling and Simulationpolymer matrix compositesfatigue modellingGeneral Materials ScienceGrowth rateComposite materialINTERNATIONAL JOURNAL OF FATIGUE
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A simulation and experimental study of electrochemical pH control at gold interdigitated electrode arrays

2021

Abstract In electroanalysis, solution pH is a critical parameter that often needs to be tailored and controlled for the detection of particular analytes. This is most commonly performed by the addition of chemicals, such as strong acids or bases. Electrochemical in-situ pH control offers the possibility for the local adjustment of pH at the point of detection, without the need for additional reagents. Finite element analysis (FEA) simulations have been performed on interdigitated electrodes, to guide experimental design in relation to both electroanalysis and in-situ control of solution pH. No previous model exists that describes the generation of protons at an interdigitated electrode arra…

Materials scienceStripping (chemistry)Tailored in-situ pH controlElectroanalysisGeneral Chemical EngineeringAnalytical chemistrySolid state sensorsSquare waveElectrochemistrychemistry.chemical_compoundSettore ING-IND/23 - Chimica Fisica ApplicatachemistryFinite element analysis simulationpH indicatorMethyl redElectrodeElectrochemistryCyclic voltammetryVoltammetryMicroband interdigitated electrode array
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Interfacial energy effects within the framework of strain gradient plasticity

2009

AbstractIn the framework of strain gradient plasticity, a solid body with boundary surface playing the role of a dissipative boundary layer endowed with surface tension and surface energy, is addressed. Using the so-called residual-based gradient plasticity theory, the state equations and the higher order boundary conditions are derived quite naturally for both the bulk material and the boundary layer. A phenomenological constitutive model is envisioned, in which the bulk material and the boundary layer obey (rate independent associative) coupled plasticity evolution laws, with kinematic hardening laws of differential nature for the bulk material, but of nondifferential nature for the layer…

Materials scienceSurface tensionApplied MathematicsMechanical EngineeringConstitutive equationInterfacesPlasticityCondensed Matter PhysicsGradient plasticitySurface energySurface tensionNonlocal continuum thermodynamicsBoundary layerClassical mechanicsMaterials Science(all)Surface energyMechanics of MaterialsModelling and SimulationModeling and SimulationRock mass plasticityDissipative systemGeneral Materials ScienceBoundary value problemInternational Journal of Solids and Structures
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Residual stresses and FCP prediction in FSW through a continuous FE model

2009

Abstract Residual stresses prediction is definitively a relevant and open issue in welding processes. In the last years, different numerical models are proposed by many researchers to predict the residual stress field in FSW butt joint. However, most of these works are based on properly tuned analytical models and neglect the effect of the mechanical action due to the presence of the tool pin. In the present paper, a continuous 3D FE model, which was previously developed by some of the authors, was used to simulate the FSW process of butt joints with a single block approach, and predict the residual stress field by considering both thermal and mechanical actions. Then, the residual stress e…

Materials scienceTension (physics)business.industryFSW Residual stresses FEMMetals and AlloysNumerical modelsWeldingStructural engineeringIndustrial and Manufacturing EngineeringFinite element methodComputer Science Applicationslaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineResidual stresslawModeling and SimulationCeramics and CompositesButt jointFriction stir weldingFe modelbusinessSettore ING-IND/16 - Tecnologie E Sistemi Di Lavorazione
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Energy models for fatigue life estimation under uniaxial random loading. Part I: The model elaboration

2001

The paper contains analysis of the energy models for the fatigue life assessment under uniaxial stress state. From the simulation tests it appears that taking into account the stress and strain signs during determination of the energy density allows one to distinguish the strain energy density at the tension and compression path. Under random loading with the zero expected values for Gaussion processes it leads to the centered stochastic process. A new (basic for damage cumulation) material characteristic can be easily determined by rescaling the widely used standard stress and strain characteristics of cyclic fatigue. A new model of the fatigue life determination has been proposed. This mo…

Materials scienceTension (physics)business.industryMechanical EngineeringStress–strain curveStrain energy density functionStructural engineeringMechanicsCompression (physics)Industrial and Manufacturing EngineeringStrain energyStress (mechanics)Mechanics of MaterialsModeling and SimulationSpecific energyGeneral Materials SciencebusinessVibration fatigueInternational Journal of Fatigue
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A first peek into sub-picosecond dynamics of spin energy levels in magnetic biomolecules

2019

We estimate the time- and temperature-evolution of spin energy levels in a metallopeptide by combining molecular dynamics with crystal field analysis. Fluctuations of tens of cm-1 for spin energy levels at fs times gradually average out at longer times. We confirm that local vibrations are key in spin dynamics.

Materials scienceTime FactorsGeneral Physics and Astronomy02 engineering and technologyMolecular Dynamics Simulation010402 general chemistry01 natural sciencesMolecular physicsVibrationCrystalMolecular dynamicsMetalloproteinsPeekPhysical and Theoretical ChemistrySpin-½chemistry.chemical_classificationBiomoleculeMagnetic Phenomena021001 nanoscience & nanotechnology0104 chemical sciencesVibrationchemistryPicosecondThermodynamicsCondensed Matter::Strongly Correlated Electrons0210 nano-technologyEnergy (signal processing)Physical Chemistry Chemical Physics
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A Novel Disintegration Tester for Solid Dosage Forms Enabling Adjustable Hydrodynamics.

2016

A modified in vitro disintegration test device was designed that enables the investigation of the influence of hydrodynamic conditions on disintegration of solid oral dosage forms. The device represents an improved derivative of the compendial PhEur/USP disintegration test device. By the application of a computerized numerical control, a variety of physiologically relevant moving velocities and profiles can be applied. With the help of computational fluid dynamics, the hydrodynamic and mechanical forces present in the probe chamber were characterized for a variety of device moving speeds. Furthermore, a proof of concept study aimed at the investigation of the influence of hydrodynamic condi…

Materials scienceTime FactorsPharmaceutical ScienceAdministration Oral02 engineering and technologyComputational fluid dynamics030226 pharmacology & pharmacyDosage form03 medical and health sciences0302 clinical medicineShear stressTechnology PharmaceuticalComputer SimulationImmediate releasebusiness.industryMechanicsModels Theoretical021001 nanoscience & nanotechnologyBody FluidsFasted stateHydrodynamics0210 nano-technologybusinessShear StrengthSoftwareTabletsJournal of pharmaceutical sciences
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Investigation of the hemodynamic flow conditions and blood-induced stresses inside an abdominal aortic aneurysm by means of a SPH numerical model.

2019

The estimation of blood flow-induced loads occurring on the artery wall is affected by uncertainties hidden in the complex interaction of the pulsatile flow, the mechanical parameters of the artery, and the external support conditions. To circumvent these difficulties, a specific tool is developed by combining the aorta displacements measured by an electrocardiogram-gated-computed tomography angiography, with the blood velocity field computed by a smoothed particle hydrodynamics (SPH) numerical model. In the present work, the SPH model has been specifically adapted to the solution of the 3D Navier-Stokes equations inside a domain with boundaries of prescribed motion. Images of the abdominal…

Materials scienceTime FactorsQuantitative Biology::Tissues and OrgansPhysics::Medical PhysicsBiomedical EngineeringPulsatile flowHemodynamicsSettore ICAR/01 - IdraulicaPhysics::Fluid DynamicsAneurysmDiastolemedicine.arterymedicineShear stressPressureHumansComputer SimulationMolecular BiologyAortamedicine.diagnostic_testCardiac cycleApplied MathematicsHemodynamicsModels CardiovascularMechanicsmedicine.diseaseAbdominal aortic aneurysmBiomechanical PhenomenaComputational Theory and MathematicsModeling and SimulationAngiographycardiovascular systemHydrodynamicsStress MechanicalInfrarenal abdominal aorta aneurysm shear stresses arterial wall SPH moving boundarySoftwareAlgorithmsBlood Flow VelocityAortic Aneurysm AbdominalInternational journal for numerical methods in biomedical engineeringREFERENCES
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Electronic properties of carbon nanotubes under torsion

2012

A computationally-effective approach for calculating the electromechanical behavior of SWNTs and MWNTs of the dimensions used in nano-electronic devices has been developed. It is a mixed finite element-tight-binding code carefully designed to realize significant time saving in calculating deformation-induced changes in electrical transport properties of the nanotubes. The effect of the MWNT diameter and chirality on the conductance after mechanical deformation was investigated. In case of torsional deformation results revealed the conductance of MWNTs to depend strongly on the diameter, since bigger MWNTs reach much earlier the buckling load under torsion their electrical conductivity chang…

Materials scienceTorsion (mechanics)ConductanceNanotechnologyGeneral ChemistryCarbon nanotubelaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineZigzagBucklinglawElectrical resistivity and conductivitycarbon nanotubes Numerical simulations Electromechanical behaviorGeneral Materials ScienceComposite materialElectrical conductorElectronic properties
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