Search results for "Long-range interactions"

showing 9 items of 9 documents

Elastic waves propagation in 1D fractional non-local continuum

2008

Aim of this paper is the study of waves propagation in a fractional, non-local 1D elastic continuum. The non-local effects are modeled introducing long-range central body interactions applied to the centroids of the infinitesimal volume elements of the continuum. These non-local interactions are proportional to a proper attenuation function and to the relative displacements between non-adjacent elements. It is shown that, assuming a power-law attenuation function, the governing equation of the elastic waves in the unbounded domain, is ruled by a Marchaud-type fractional differential equation. Wave propagation in bounded domain instead involves only the integral part of the Marchaud fraction…

PhysicsNon-local elasticityContinuum mechanicsWave propagationDifferential equationMathematical analysisCondensed Matter PhysicsFractional calculuDispersion of elastic waves; Lattice models; Long-range interactions; Non-local elasticity; Fractional calculus; Fractional power lawPower lawAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsFractional calculusLattice modelLove waveLong-range interactionIngenieurwissenschaftenDispersion of elastic waveBounded functionddc:620Settore ICAR/08 - Scienza Delle CostruzioniLongitudinal waveFractional power law
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MECHANICAL RESPONSE OF BERNULLI EULER BEAMS ON FRACTIONAL ORDER ELASTIC FOUNDATION

2014

Long-range interactions non-local foundations elastic beams fractional calculusSettore ICAR/08 - Scienza Delle Costruzioni
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Long-range interactions in 1D heterogeneous solids with uncertainty

2013

Abstract In this paper, the authors aim to analyze the response of a one-dimensional non-local elastic solid with uncertain Young's modulus. The non-local effects are represented as long-range central body forces between non-adjacent volume elements. Following a non-probabilistic approach, the fluctuating elastic modulus of the material is modeled as an interval field. The analysis is conducted resorting to a novel formulation that confines the overestimation effect involved in interval models. Approximate closed-form expressions are derived for the bounds of the interval displacement field.

Body forceNon-local elasticityField (physics)non-local elasticity; long-range interactions; interval field; upper bound and lower bound.Mathematical analysisModulusGeneral MedicineInterval (mathematics)Upper and lower boundsLong-range interactionLong-range interactionsInterval field; Long-range interactions; Non-local elasticity; Upper bound and lower boundDisplacement fieldRange (statistics)Interval fieldUpper bound and lower boundSettore ICAR/08 - Scienza Delle CostruzioniElastic modulusMathematics
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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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On the vibrations of a mechanically based non-local beam model

2012

The vibration problem of a Timoshenko non-local beam is addressed. The beam model involves assuming that the equilibrium of each volume element is attained due to contact forces and long-range body forces exerted, respectively, by adjacent and non-adjacent volume elements. The contact forces result in the classical Cauchy stress tensor while the long-range forces are taken as depending on the product of the interacting volume elements and on their relative displacement through a material-dependent distance-decaying function. To derive the motion equations and the related mechanical boundary conditions, the Hamilton's principle is applied The vibration problem of a Timoshenko non-local beam …

Timoshenko beam theoryBody forceNon-local elasticityGeneral Computer ScienceGeneral Physics and AstronomyContact forceLong-range interactionsymbols.namesakeFree vibrations; Hamilton's principle; Long-range interactions; Non-local elasticity; Timoshenko beam theoryGeneral Materials ScienceHamilton's principleVolume elementPhysicsCauchy stress tensorEquations of motionFree vibrationGeneral ChemistryMechanicsComputational MathematicsTimoshenko beam theoryClassical mechanicsHamilton's principleMechanics of MaterialssymbolsSettore ICAR/08 - Scienza Delle CostruzioniBeam (structure)Computational Materials Science
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A new displacement-based framework for non-local Timoshenko beams

2015

In this paper, a new theoretical framework is presented for modeling non-locality in shear deformable beams. The driving idea is to represent non-local effects as long-range volume forces and moments, exchanged by non-adjacent beam segments as a result of their relative motion described in terms of pure deformation modes of the beam. The use of these generalized measures of relative motion allows constructing an equivalent mechanical model of non-local effects. Specifically, long-range volume forces and moments are associated with three spring-like connections acting in parallel between couples of non-adjacent beam segments, and separately accounting for pure axial, pure bending and pure sh…

Timoshenko beam theoryPhysicsMechanical EngineeringSpring-like connectionMechanicsPure shearPure deformation modeNon localCondensed Matter PhysicsPotential energyLong-range interactionClassical mechanicsShear (geology)Non-local Timoshenko beamMechanics of MaterialsLong-range interactions; Non-local Timoshenko beam; Pure deformation modes; Spring-like connections; Mechanical Engineering; Mechanics of Materials; Condensed Matter PhysicsPure bendingPhysics::Accelerator PhysicsMechanics of MaterialMinificationSettore ICAR/08 - Scienza Delle CostruzioniBeam (structure)
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A Non-Local Two Dimensional Foundation Model

2012

Classical foundation models such as the Pasternak and the Reissner models have been recently reformulated within the framework of non-local mechanics, by using the gradient theory of elasticity. To contribute to the research effort in this field, this paper presents a two-dimensional foundation model built by using a mechanically based non-local elasticity theory, recently proposed by the authors. The foundation is thought of as an ensemble of soil column elements resting on an elastic base. It is assumed that each column element is acted upon by a local Winkler-like reaction force exerted by the elastic base, by contact shear forces and volume forces due, respectively, to adjacent and non-…

Mechanical EngineeringAttenuationLinear elasticityShear forceNon-local mechanicFinite difference methodSubgrade modelsMechanicsElasticity (physics)Foundation modelFractional calculuNon localFractional calculusReactionNon-local foundation Long-Range Interactions Fractional CalculusLinear elasticitySettore ICAR/08 - Scienza Delle CostruzioniMathematics
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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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A fractional viscoelastic non-local Timoshenko beam

2014

Long-range interactions Fractional hereditary nano beams Non-local hereditarinessSettore ICAR/08 - Scienza Delle Costruzioni
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