Search results for "elasticity"

showing 10 items of 736 documents

RGB Photoelasticity: Review and Improvements

2010

:  This paper considers the main developments of RGB photoelasticity with reference to the maximum measurable retardation. In this paper, a new procedure based on the standard error function evaluated on a subset of the calibration array is also proposed and experimentally tested. The experiments show that the filament lamp makes it possible to find retardations until approximately 4 fringe orders while the fluorescent lamp makes it possible to determine higher fringe orders (12 fringe orders in this paper) owing to the discrete spectrum of the source. The paper shows that, by using the incandescent lamp, the primary limiting factor is the lack of modulation of the R, G and B signals wherea…

PhysicsIncandescent light bulbPhotoelasticitybusiness.industryMechanical EngineeringFunction (mathematics)law.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineOpticsMechanics of MaterialslawModulationbirefringent materials digital photoelasticity experimental mechanics non destructive testing RGB methodNondestructive testingCalibrationRGB color modelSettore ING-IND/15 - Disegno E Metodi Dell'Ingegneria IndustrialebusinessFluorescent lampStrain
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BEM Techniques in Nonlocal Elasticity

2005

PhysicsMathematical analysisElasticity (economics)Boundary element method
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Non-linear viscoelastic behavior of polymer melts interpreted by fractional viscoelastic model

2016

Very recently, researchers dealing with constitutive law pertinent viscoelastic materials put forward the successful idea to introduce viscoelastic laws embedded with fractional calculus, relating the stress function to a real order derivative of the strain function. The latter consideration leads to represent both, relaxation and creep functions, through a power law function. In literature there are many papers in which the best fitting of the peculiar viscoelastic functions using a fractional model is performed. However there are not present studies about best fitting of relaxation function and/or creep function of materials that exhibit a non-linear viscoelastic behavior, as polymer melt…

PhysicsMechanical EngineeringConstitutive equationThermodynamicsViscoelasticity02 engineering and technologyFunction (mathematics)Fractional calculuPower law function021001 nanoscience & nanotechnologyCondensed Matter PhysicsSpectrum of relaxation timePower lawViscoelasticityFractional calculusCondensed Matter::Soft Condensed MatterShear rate020303 mechanical engineering & transports0203 mechanical engineeringCreepMechanics of MaterialsRelaxation (physics)Statistical physics0210 nano-technologyMeccanica
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Size effects of small-scale beams in bending addressed with a strain-difference based nonlocal elasticity theory

2019

Abstract A strain-difference based nonlocal elasticity model devised by the authors elsewhere (Polizzotto et al., Int. J. Solids Struct. 25 (2006) 308–333) is applied to small-scale homogeneous beam models in bending under static loads in the purpose to describe the inherent size effects. With this theory —belonging to the strain-integral nonlocal model family, but exempt from anomalies typical of the Eringen nonlocal theory— the relevant beam problem is reduced to a set of three mutually independent Fredholm integral equations of the second kind (each independent of the beam’s ordinary boundary conditions, only one depends on the given load), which can be routinely solved numerically. Appl…

PhysicsMechanical EngineeringMathematical analysis02 engineering and technologyStrain differenceElasticity (physics)021001 nanoscience & nanotechnologyCondensed Matter PhysicsStrain gradientIntegral equation020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsHomogeneousGeneral Materials ScienceBoundary value problem0210 nano-technologyBeam (structure)Civil and Structural EngineeringInternational Journal of Mechanical Sciences
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Anisotropy in strain gradient elasticity: Simplified models with different forms of internal length and moduli tensors

2018

Abstract Anisotropy of centro-symmetric (first) strain gradient elastic materials is addressed and the role there played by the dual gradient directions (i.e. directions of strain gradient and of double stress lever arm) is investigated. Anisotropy manifests itself not only through the classical fourth-rank elasticity tensor C (21 independent constants) in the form of moduli anisotropy, but also through a sixth-rank elasticity tensor B (171 independent constants) in a unified non-separable form as compound internal length/moduli anisotropy. Depending on the microstructure properties, compound anisotropy may also manifest itself in a twofold separable form through a decoupled tensor B = L C …

PhysicsMechanical EngineeringMathematical analysisGeneral Physics and Astronomy02 engineering and technologyPositive-definite matrix021001 nanoscience & nanotechnologyMicrostructureEllipsoidSeparable spaceModuli020303 mechanical engineering & transports0203 mechanical engineeringMechanics of MaterialsGeneral Materials ScienceTensorElasticity (economics)0210 nano-technologyAnisotropyEuropean Journal of Mechanics - A/Solids
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Stochastic Analysis of a Nonlocal Fractional Viscoelastic Bar Forced by Gaussian White Noise

2017

Recently, a displacement-based nonlocal bar model has been developed. The model is based on the assumption that nonlocal forces can be modeled as viscoelastic (VE) long-range interactions mutually exerted by nonadjacent bar segments due to their relative motion; the classical local stress resultants are also present in the model. A finite element (FE) formulation with closed-form expressions of the elastic and viscoelastic matrices has also been obtained. Specifically, Caputo's fractional derivative has been used in order to model viscoelastic long-range interaction. The static and quasi-static response has been already investigated. This work investigates the stochastic response of the non…

PhysicsNon local bar fractional viscoelasticity stochastic analysisDifferential equationStochastic processBar (music)Mechanical EngineeringMathematical analysisEquations of motion02 engineering and technologyWhite noise021001 nanoscience & nanotechnologyViscoelasticityStochastic partial differential equation020303 mechanical engineering & transportsClassical mechanics0203 mechanical engineeringSettore ICAR/08 - Scienza Delle Costruzioni0210 nano-technologySafety Risk Reliability and QualitySafety ResearchNumerical partial differential equationsASCE-ASME J Risk and Uncert in Engrg Sys Part B Mech Engrg
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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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Electrical analogous in viscoelasticity

2014

In this paper, electrical analogous models of fractional hereditary materials are introduced. Based on recent works by the authors, mechanical models of materials viscoelasticity behavior are firstly approached by using fractional mathematical operators. Viscoelastic models have elastic and viscous components which are obtained by combining springs and dashpots. Various arrangements of these elements can be used, and all of these viscoelastic models can be equivalently modeled as electrical circuits, where the spring and dashpot are analogous to the capacitance and resistance, respectively. The proposed models are validated by using modal analysis. Moreover, a comparison with numerical expe…

PhysicsNumerical AnalysisEigenvalues analysiEigenvalues analysis Fractional calculus Fractional capacitor Viscoelastic modelsApplied MathematicsModal analysisMathematical analysisFinite-difference time-domain methodViscoelastic modelFractional calculuDashpotViscoelasticityFractional calculuslaw.inventionMathematical OperatorsFractional capacitorSettore ING-IND/31 - ElettrotecnicaSettore MAT/08 - Analisi NumericaSpring (device)lawModeling and SimulationElectrical networkCalculusSettore ICAR/08 - Scienza Delle Costruzioni
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Fractional Tajimi–Kanai model for simulating earthquake ground motion

2014

The ground acceleration is usually modeled as a filtered Gaussian process. The most common model is a Tajimi–Kanai (TK) filter that is a viscoelastic Kelvin–Voigt unit (a spring in parallel with a dashpot) carrying a mass excited by a white noise (acceleration at the bedrock). Based upon the observation that every real material exhibits a power law trend in the creep test, in this paper it is proposed the substitution of the purely viscous element in the Kelvin Voigt element with the so called springpot that is an element having an intermediate behavior between purely elastic (spring) and purely viscous (dashpot) behavior ruled by fractional operator. With this choice two main goals are rea…

PhysicsPeak ground accelerationGround motionBuilding and ConstructionWhite noiseMechanicsGeotechnical Engineering and Engineering GeologyFree fieldViscoelasticityDashpotsymbols.namesakeAccelerationGeophysicsSpring (device)Fractional viscoelasticitysymbolsTajimi–Kanai filterGaussian processCivil and Structural Engineering
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Mapping acoustical activity in 3D chiral mechanical metamaterials onto micropolar continuum elasticity

2020

Abstract We compare the phonon band structures and chiral phonon eigenmodes of a recently experimentally realized three-dimensional (3D) cubic chiral metamaterial architecture to results from linear micropolar elasticity, an established generalization of classical linear Cauchy elasticity. We achieve very good qualitative agreement concerning the anisotropies of the eigenfrequencies, the anisotropies of the eigenmode properties of the acoustic branches, as well as with respect to the observed pronounced sample-size dependence of acoustical activity and of the static push-to-twist conversion effects. The size dependence of certain properties, that is, the loss of scale invariance, is a finge…

PhysicsPhononMechanical EngineeringMetamaterialCauchy distribution02 engineering and technologyAcoustic waveScale invariance021001 nanoscience & nanotechnologyCondensed Matter Physics01 natural sciences010305 fluids & plasmasClassical mechanicsMechanics of MaterialsNormal mode0103 physical sciencesElasticity (economics)0210 nano-technologyAnisotropyJournal of the Mechanics and Physics of Solids
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