Search results for "Modelling and Simulation"

showing 10 items of 97 documents

The mechanically-based approach to 3D non-local linear elasticity theory: Long-range central interactions

2010

Abstract This paper presents the generalization to a three-dimensional (3D) case of a mechanically-based approach to non-local elasticity theory, recently proposed by the authors in a one-dimensional (1D) case. The proposed model assumes that the equilibrium of a volume element is attained by contact forces between adjacent elements and by long-range forces exerted by non-adjacent elements. Specifically, the long-range forces are modelled as central body forces depending on the relative displacement between the centroids of the volume elements, measured along the line connecting the centroids. Further, the long-range forces are assumed to be proportional to a proper, material-dependent, dis…

Body forceNon-local elasticityWAVESPROPAGATIONContact forceLattice modelsCentral forcesCentral forceVARIATIONAL-PRINCIPLESMaterials Science(all)Modelling and SimulationVariational formulationsGeneral Materials ScienceVirtual workPLASTICITYSTRAIN-GRADIENT ELASTICITYMathematicsPlane stressDISCRETECONTINUAMechanical EngineeringApplied MathematicsLinear elasticityElastic energySTRAIN-GRADIENT ELASTICITY; VARIATIONAL-PRINCIPLES; CRACK SUBJECT; PROPAGATION; PLASTICITY; DISCRETE; CONTINUA; DEFECTS; LATTICE; WAVESMechanicsDEFECTSCondensed Matter PhysicsLATTICELong-range interactionsClassical mechanicsContact mechanicsStatic–kinematic dualityMechanics of MaterialsModeling and SimulationSettore ICAR/08 - Scienza Delle CostruzioniCRACK SUBJECTInternational Journal of Solids and Structures

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Mechanically-based approach to non-local elasticity: Variational principles

2010

Abstract The mechanically-based approach to non-local elastic continuum, will be captured through variational calculus, based on the assumptions that non-adjacent elements of the solid may exchange central body forces, monotonically decreasing with their interdistance, depending on the relative displacement, and on the volume products. Such a mechanical model is investigated introducing primarily the dual state variables by means of the virtual work principle. The constitutive relations between dual variables are introduced defining a proper, convex, potential energy. It is proved that the solution of the elastic problem corresponds to a global minimum of the potential energy functional. Mo…

Body forceState variableNon-local elasticityNon-local state variablesConstitutive equationEuler–Lagrange equationLong-range interactionNon-local state variableMaterials Science(all)Modelling and SimulationGeneral Materials ScienceVirtual workBoundary value problemMathematicsVariational theoremsMechanical EngineeringApplied MathematicsMathematical analysisCondensed Matter PhysicsPotential energyLong-range interactionsClassical mechanicsMechanics of MaterialsModeling and SimulationNon-local elastic potential energyCalculus of variationsSettore ICAR/08 - Scienza Delle CostruzioniInternational Journal of Solids and Structures

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Stress gradient versus strain gradient constitutive models within elasticity

2014

Abstract A stress gradient elasticity theory is developed which is based on the Eringen method to address nonlocal elasticity by means of differential equations. By suitable thermodynamics arguments (involving the free enthalpy instead of the free internal energy), the restrictions on the related constitutive equations are determined, which include the well-known Eringen stress gradient constitutive equations, as well as the associated (so far uncertain) boundary conditions. The proposed theory exhibits complementary characters with respect to the analogous strain gradient elasticity theory. The associated boundary-value problem is shown to admit a unique solution characterized by a Helling…

Boundary conditionsInternal energyDifferential equationMechanical EngineeringApplied MathematicsConstitutive equationMathematical analysisElasticity (physics)Condensed Matter PhysicsGibbs free energysymbols.namesakeMaterials Science(all)Beam modelsVariational principleMechanics of MaterialsModeling and SimulationModelling and SimulationsymbolsStress gradient elasticityGeneral Materials ScienceBoundary value problemPrinciple of the virtual powerBeam (structure)MathematicsInternational Journal of Solids and Structures

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Boundary value steady solutions of a class of hydrodynamic models for vehicular traffic flow

2003

This paper deals with the solution of a boundary value problem related to a steady nonuniform description of a class of traffic flow models. The models are obtained by the closure of the mass conservation equation with a phenomenological relation linking the local mass velocity to the local density. The analysis is addressed to define the proper framework toward the identification of the parameter characterizing the model. The last part of the paper develops a critical analysis also addressed to the design of new traffic flow models.

Cauchy problemMathematical optimizationPartial differential equationSteady stateDifferential equationClosure (topology)Traffic flowComputer Science ApplicationsMicroscopic traffic flow modelModelling and SimulationModeling and SimulationApplied mathematicsBoundary value problemMathematicsMathematical and Computer Modelling

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Thermomechanical effects in the flow of a fluid in porous media

2002

This paper deals with analysis, by methods of extended thermodynamics, of the thermomechanical effects which arise in the flow of a weakly viscous fluid in a porous medium. Under the hypothesis that the fluid fills all the interstices among the powder and that the size of the powder grains and of the interstices is much lower than a suitable characteristic length, linearized field equations are written, which include, in a natural way, terms which take into account the Dufour, Soret, and virtual mass effects. As a limiting case when the evolution time of the heat flux goes to infinite and no entropy flux is carried, the flow of liquid helium II in a porous medium is obtained.

Characteristic lengthThermodynamicsViscous liquidComputer Science ApplicationsPhysics::Fluid DynamicsHeat fluxModeling and SimulationMass transferModelling and SimulationHeat transferFluid dynamicsBoundary value problemPorous mediumMathematicsMathematical and Computer Modelling

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A comparison analysis between unsymmetric and symmetric radial basis function collocation methods for the numerical solution of partial differential …

2002

Abstract In this article, we present a thorough numerical comparison between unsymmetric and symmetric radial basis function collocation methods for the numerical solution of boundary value problems for partial differential equations. A series of test examples was solved with these two schemes, different problems with different type of governing equations, and boundary conditions. Particular emphasis was paid to the ability of these schemes to solve the steady-state convection-diffusion equation at high values of the Peclet number. From the examples tested in this work, it was observed that the system of algebraic equations obtained with the symmetric method was in general simpler to solve …

CollocationPartial differential equationSeries (mathematics)Numerical solutionMathematical analysisPartial differential equationAlgebraic equationComputational MathematicsComputational Theory and MathematicsModeling and SimulationCollocation methodModelling and SimulationRadial basis functionBoundary value problemMesh free techniqueMathematicsNumerical partial differential equationsComputers & Mathematics with Applications

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Exploring parallel capabilities of an innovative numerical method for recovering image velocity vectors field

2010

In this paper an efficient method devoted to estimate the velocity vectors field is investigated. The method is based on a quasi-interpolant operator and involves a large amount of computation. The operations characterizing the computational scheme are ideal for parallel processing because they are local, regular and repetitive. Therefore, the spatial parallelism of the process is studied to rapidly proceed in the computation on distributed multiprocessor systems. The process has shown to be synchronous, with good task balancing and requiring a small amount of data transfer.

ComputationNumerical analysisProcess (computing)MultiprocessingField (computer science)Computational scienceComputer Science ApplicationsSettore MAT/08 - Analisi NumericaOperator (computer programming)Parallel processing (DSP implementation)Modeling and SimulationModelling and SimulationImage velocity vectors field Quasi-interpolant operator B-spline functions Distributed multiprocessor systemsAlgorithmMathematicsData transmissionMathematical and Computer Modelling

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Shooting methods for 1D steady-state free boundary problems

1993

AbstractIn this note, we present two numerical methods based on shooting methods to solve steady-state diffusion-absorption models.

Computational MathematicsSteady state (electronics)Shooting methodComputational Theory and MathematicsQuantitative Biology::Tissues and OrgansModeling and SimulationNumerical analysisModelling and SimulationMathematical analysisBoundary (topology)GeometryMathematicsComputers & Mathematics with Applications

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Comparison of implementations of the lattice-Boltzmann method

2008

AbstractSimplicity of coding is usually an appealing feature of the lattice-Boltzmann method (LBM). Conventional implementations of LBM are often based on the two-lattice or the two-step algorithm, which however suffer from high memory consumption and poor computational performance, respectively. The aim of this work was to identify implementations of LBM that would achieve high computational performance with low memory consumption. Effects of memory addressing schemes were investigated in particular. Data layouts for velocity distribution values were also considered, and they were found to be related to computational performance. A novel bundle data layout was therefore introduced. Address…

Computational fluid mechanicsMemory addressing schemesComputer scienceLattice Boltzmann methodsParallel computingSupercomputerAddressing modeHigh memoryMemory addressComputational MathematicsComputational Theory and MathematicsModeling and SimulationBundleModelling and SimulationLattice-Boltzmann methodImplementationHigh-performance computingCoding (social sciences)Computers & Mathematics with Applications

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A computer method for estimating volumes and surface areas of complex structures consisting of overlapping spheres

1992

A PASCAL program which calculates volumes and surface areas of structures consisting of overlapping spheres is designed. The calculation is done by modelling the structure in the memory of a computer and then scanning the memory bit- or bytewise. A brief discussion of the error is presented, and an example for testing the algorithm is provided.

Computer programComputer science010102 general mathematics010103 numerical & computational mathematicsPascal (programming language)Programming method01 natural sciencesComputer Science ApplicationsModelling and SimulationModeling and SimulationSPHERES0101 mathematicsAlgorithmcomputercomputer.programming_languageMathematical and Computer Modelling

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