Search results for "Elastic"

showing 10 items of 2162 documents

Including Ratio of Platelets to Liver Stiffness Improves Accuracy of Screening for Esophageal Varices That Require Treatment

2021

International audience; Background & aims: Based on platelets and liver stiffness measurements, the Baveno VI criteria (B6C), the expanded B6C (EB6C), and the ANTICIPATE score can be used to rule out varices needing treatment (VNT) in patients with compensated chronic liver disease. We aimed to improve these tests by including data on the ratio of platelets to liver stiffness.Methods: In a retrospective analysis of data from 10 study populations, collected from 2004 through 2018, we randomly assigned data from 2368 patients with chronic liver disease of different etiologies to a derivation population (n = 1579; 15.1% with VNT, 50.2% with viral hepatitis, 28.9% with nonalcoholic fatty liver …

Blood PlateletsLiver CirrhosisNoninvasive Diagnosismedicine.medical_specialtyCirrhosis[SDV]Life Sciences [q-bio]PopulationEsophageal and Gastric VaricesChronic liver diseaseSeverity of Illness IndexGastroenterologyEnd Stage Liver Disease03 medical and health sciencesLiver disease0302 clinical medicineModel for End-Stage Liver DiseaseEsophageal varicesInternal medicineNonalcoholic fatty liver diseasemedicineHumanseducationBaveno VI CriteriaRetrospective Studieseducation.field_of_studyHepatologybusiness.industryGastroenterologyRetrospective cohort studyPortal Hypertensionmedicine.disease3. Good healthMELDCirrhosis030220 oncology & carcinogenesisElasticity Imaging Techniques030211 gastroenterology & hepatologybusinessBaveno VI Criteria Blood Platelets Cirrhosis Elasticity Imaging Techniques End Stage Liver Disease Esophageal and Gastric Varices Humans Liver Cirrhosis MELD Noninvasive Diagnosis Portal Hypertension Retrospective Studies Severity of Illness Index
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Wave propagation in 1D elastic solids in presence of long-range central interactions

2011

Abstract In this paper wave propagation in non-local elastic solids is examined in the framework of the mechanically based non-local elasticity theory established by the author in previous papers. It is shown that such a model coincides with the well-known Kroner–Eringen integral model of non-local elasticity in unbounded domains. The appeal of the proposed model is that the mechanical boundary conditions may easily be imposed because the applied pressure at the boundaries of the solid must be equilibrated by the Cauchy stress. In fact, the long-range forces between different volume elements are modelled, in the body domain, as central body forces applied to the interacting elements. It is …

Body forceAcoustics and UltrasonicsCONTINUAWave propagationMechanical EngineeringWeak solutionMODELSElastic energyGRADIENT ELASTICITYWeak formulationElasticity (physics)Condensed Matter PhysicsWave equationMEDIANONLOCAL ELASTICITYClassical mechanicsMechanics of MaterialsBoundary value problemSettore ICAR/08 - Scienza Delle CostruzioniMathematicsJournal of Sound and Vibration
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Variational Aspects of the Physically-Based Approach to 3D Non-Local Continuum Mechanics

2010

This paper deals with the generalization to three-dimensional elasticity of the physically-based approach to non-local mechanics, recently proposed by the authors in one-dimensional case. The proposed model assumes that the equilibrium of a volume element is attained by contact forces between adjacent elements and by long-range central forces exerted by non-adjacent elements. Specifically, the long-range forces are modeled as central body forces depending on the relative displacements between the centroids of the volume elements, measured along the line connecting the centroids. Furthermore, the long-range forces are assumed to be proportional to a proper, material-dependent, distance-decay…

Body forceMaterials scienceLong-Range InteractionContinuum mechanicsMechanical EngineeringElasticity (physics)Condensed Matter PhysicsContact forceClassical mechanicsCentral forceMechanics of MaterialsElastic Potential EnergyBounded functionFractional CalculusGeneral Materials ScienceBoundary value problemVolume elementNon-Local ElasticitySettore ICAR/08 - Scienza Delle CostruzioniMaterials Science Forum
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Physically-Based Approach to the Mechanics of Strong Non-Local Linear Elasticity Theory

2009

In this paper the physically-based approach to non-local elasticity theory is introduced. It is formulated by reverting the continuum to an ensemble of interacting volume elements. Interactions between adjacent elements are classical contact forces while long-range interactions between non-adjacent elements are modelled as distance-decaying central body forces. The latter are proportional to the relative displacements rather than to the strain field as in the Eringen model and subsequent developments. At the limit the displacement field is found to be governed by an integro-differential equation, solved by a simple discretization procedure suggested by the underlying mechanical model itself…

Body forceNon-local elasticityDiscretizationField (physics)Mechanical EngineeringLinear elasticityConstitutive equationMathematical analysisCentral volume forceEquivalent mechanical modelThermodynamic consistencyContact forceLong-range interactionMechanics of MaterialsDisplacement fieldGeneral Materials ScienceBoundary value problemSettore ICAR/08 - Scienza Delle CostruzioniMathematicsJournal of Elasticity
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A generalized model of elastic foundation based on long-range interactions: Integral and fractional model

2009

The common models of elastic foundations are provided by supposing that they are composed by elastic columns with some interactions between them, such as contact forces that yield a differential equation involving gradients of the displacement field. In this paper, a new model of elastic foundation is proposed introducing into the constitutive equation of the foundation body forces depending on the relative vertical displacements and on a distance-decaying function ruling the amount of interactions. Different choices of the distance-decaying function correspond to different kind of interactions and foundation behavior. The use of an exponential distance-decaying function yields an integro-d…

Body forceNon-local elasticityElastic foundationsDifferential equationConstitutive equationFractional calculuElastic foundationMaterials Science(all)Long-range forcesLong-range forceModelling and SimulationGeneral Materials ScienceMathematicsApplied MathematicsMechanical EngineeringMathematical analysisFractional calculusFunction (mathematics)Condensed Matter PhysicsIntegral equationFractional calculusExponential functionMejier-G functionsGradient modelsMechanics of MaterialsModeling and SimulationDisplacement fieldGradient modelSettore 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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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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The finite element method for the mechanically based model of non-local continuum

2011

SUMMARY In this paper the finite element method (FEM) for the mechanically based non-local elastic continuum model is proposed. In such a model each volume element of the domain is considered mutually interacting with the others, beside classical interactions involved by the Cauchy stress field, by means of central body forces that are monotonically decreasing with their inter-distance and proportional to the product of the interacting volume elements. The constitutive relations of the long-range interactions involve the product of the relative displacement of the centroids of volume elements by a proper, distance-decaying function, which accounts for the decrement of the long-range interac…

Body forceNumerical AnalysisCauchy stress tensorApplied MathematicsNumerical analysisMathematical analysisConstitutive equationGeneral EngineeringFinite difference methodVolume elementElasticity (economics)Finite element methodMathematicsInternational Journal for Numerical Methods in Engineering
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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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The development of a hybrid technique employing the boundary element method for thermoelastic stress separation

2000

: This paper presents a development of a hybrid technique employing a boundary element method for determining individual stress components in two-dimensional arbitrarily shaped domains from experimental isopachics only. The procedure consists of a numerical solution of two Poisson equations representing equilibrium for two-dimensional plane-stressed solids with zero body forces. An existing technique is employed for smoothing interior thermoelastic data and enhancing boundary information. The algorithm of stress separation has been implemented with the help of commercial codes. The whole procedure has been tested through a complete post-processing example of thermoelastic stress analysis da…

Body forceStress (mechanics)Thermoelastic dampingMechanics of MaterialsMechanical EngineeringNumerical analysisMathematical analysisBoundary (topology)GeometryPoisson's equationBoundary element methodSmoothingMathematics
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