Search results for " OF"

showing 10 items of 43068 documents

Derivation of a Homogenized Two-Temperature Model from the Heat Equation

2014

This work studies the heat equation in a two-phase material with spherical inclusions. Under some appropriate scaling on the size, volume fraction and heat capacity of the inclusions, we derive a coupled system of partial differential equations governing the evolution of the temperature of each phase at a macroscopic level of description. The coupling terms describing the exchange of heat between the phases are obtained by using homogenization techniques originating from [D. Cioranescu, F. Murat: Coll\`ege de France Seminar vol. 2. (Paris 1979-1980) Res. Notes in Math. vol. 60, pp. 98-138. Pitman, Boston, London, 1982.]

01 natural sciencesHomogenization (chemistry)Heat capacity010305 fluids & plasmasTwo temperatureMathematics - Analysis of PDEsThermal nonequilibrium models0103 physical sciencesFOS: Mathematics[MATH.MATH-AP]Mathematics [math]/Analysis of PDEs [math.AP]0101 mathematicsScalingMSC 35K05 35B2776T05 (35Q79 76M50)35K05 35B27 76T05 (35Q79 76M50)MathematicsNumerical AnalysisHomogenizationPartial differential equationInfinite diffusion limitApplied MathematicsHeat equationMathematical analysis010101 applied mathematicsComputational MathematicsThermal non-equilibrium modelsModeling and SimulationVolume fractionHeat equationAnalysisAnalysis of PDEs (math.AP)
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Discrete spectral incoherent solitons in nonlinear media with noninstantaneous response

2011

International audience; We show theoretically that nonlinear optical media characterized by a finite response time may support the existence of discrete spectral incoherent solitons. The structure of the soliton consists of three incoherent spectral bands that propagate in frequency space toward the low-frequency components in a discrete fashion and with a constant velocity. Discrete spectral incoherent solitons do not exhibit a confinement in the space-time domain, but exclusively in the frequency domain. The kinetic theory describes in detail all the essential properties of discrete spectral incoherent solitons: A quantitative agreement has been obtained between simulations of the kinetic…

01 natural sciencesoptical instabilitiesSchrödinger equation010309 opticssymbols.namesakeand lossesQuantum mechanics0103 physical sciencesDispersion (optics)Dynamics of nonlinear optical systemsOptical solitonssolitons010306 general physicsPropagationNonlinear Schrödinger equationNonlinear Sciences::Pattern Formation and SolitonsPhysics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics][ PHYS.PHYS.PHYS-OPTICS ] Physics [physics]/Physics [physics]/Optics [physics.optics]and optical spatio-temporal dynamicsscatteringWave equationAtomic and Molecular Physics and OpticsSupercontinuumNonlinear systemFrequency domainsymbolsoptical chaos and complexitySolitonnonlinear guided waves
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A Model for High-Cycle Fatigue in Polycrystals

2018

A grain-scale formulation for high-cycle fatigue inter-granular degradation in polycrystalline aggregates is presented. The aggregate is represented through Voronoi tessellations and the mechanics of individual bulk grains is modelled using a boundary integral formulation. The inter-granular interfaces degrade under the action of cyclic tractions and they are represented using cohesive laws embodying a local irreversible damage parameter that evolves according to high-cycle continuum damage laws. The consistence between cyclic and static damage, which plays an important role in the redistribution of inter-granular tractions upon cyclic degradation, is assessed at each fatigue solution jump,…

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringFatigue testingMicromechanicsGeneral Materials Science02 engineering and technology0101 mathematicsComposite material01 natural sciencesKey Engineering Materials
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Hybrid Equilibrium Finite Element Formulation for Cohesive Crack Propagation

2019

Equilibrium elements have been developed in hybrid formulation with independent equilibrated stress fields on each element. Traction equilibrium condition, at sides between adjacent elements and at sides of free boundary, is enforced by use of independent displacement laws at each side, assumed as Lagrangian parameters. The displacement degrees of freedom belongs to the element side, where an extrinsic interface can be embedded. The embedded interface is defined by the same stress fields of the hybrid equilibrium element and it does not require any additional degrees of freedom. The extrinsic interface is developed in the consistent thermodynamic framework of damage mechanics with internal …

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringGeneral Materials ScienceFracture mechanics02 engineering and technologyMechanics0101 mathematics01 natural sciencesFinite element methodKey Engineering Materials
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Virtual Element Method: Micro-Mechanics Applications

2019

In this contribution we present an application of the lowest order Virtual Element Method (VEM) to the problem of material computational homogenization. Material homogenization allows retrieving material properties through suitable volume averaging procedures, starting from a detailed representation of the micro-constituents of the considered material. The representation of such microstructure constitutes a remarkable effort in terms of data/mesh preparation, especially when there is not evident microstructural regularity. For such a reason, computational micromechanics may represent a challenging benchmark for showing the potential of VEM. In this contribution, polycrystalline materials ar…

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringMechanical engineeringMicromechanicsGeneral Materials Science02 engineering and technology0101 mathematicsElement (category theory)01 natural sciencesKey Engineering Materials
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A Model for Low-Cycle Fatigue in Micro-Structured Materials

2019

A microscale formulation for low-cycle fatigue degradation in heterogeneous materials is presented. The interface traction-separation law is modelled by a cohesive zone model for low-cycle fatigue analysis, which is developed in a consistent thermodynamic framework of elastic-plastic-damage mechanics with internal variables. A specific fatigue activation condition allows to model the material degradation related to the elastic-plastic cyclic loading conditions, with tractions levels lower than the static failure condition. A moving endurance surface, in the classic framework of kinematic hardening, enables a pure elastic behaviour without any fatigue degradation for low levels of cyclic tra…

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringMicromechanicsGeneral Materials ScienceLow-cycle fatigue02 engineering and technology0101 mathematicsComposite material01 natural sciencesKey Engineering Materials
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A Thermodynamically Consistent CZM for Low-Cycle Fatigue Analysis

2018

A cohesive zone model for low-cycle fatigue analysis is developed in a consistent thermodynamic framework of elastic-plastic-damage mechanics with internal variable. A specific fatigue activation condition allows to model the material degradation related to the elastic-plastic cyclic loading conditions, with tractions levels lower than the damage activation condition. A moving endurance surface, in the classic framework of kinematic hardening, enables a pure elastic behavior without any fatigue degradation for low levels loading conditions.

010101 applied mathematics020303 mechanical engineering & transportsMaterials science0203 mechanical engineeringMechanics of MaterialsMechanical EngineeringThermodynamicsGeneral Materials ScienceLow-cycle fatigue02 engineering and technology0101 mathematics01 natural sciencesStrength of materialsKey Engineering Materials
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Asymptotic behavior of global solutions of aerotaxis equations

2019

Abstract We study asymptotic behavior of global solutions of one-dimensional aerotaxis model proposed in Knosalla and Nadzieja (2015) [9] .

010101 applied mathematicsAsymptotic behavior of solutionsApplied Mathematics010102 general mathematicsAerotaxis equationsApplied mathematics0101 mathematics01 natural sciencesAnalysisMathematicsJournal of Mathematical Analysis and Applications
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On asymptotic behavior of solutions to higher-order sublinear Emden–Fowler delay differential equations

2017

Abstract We study asymptotic behavior of solutions to a class of higher-order sublinear Emden–Fowler delay differential equations. Our theorems improve several results reported recently in the literature. Two examples are provided to illustrate the importance and advantages of new criteria.

010101 applied mathematicsClass (set theory)Sublinear functionApplied Mathematics010102 general mathematicsMathematical analysisMathematics::Analysis of PDEsOrder (group theory)Delay differential equation0101 mathematics01 natural sciencesMathematicsApplied Mathematics Letters
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F-contractions of Hardy–Rogers-type and application to multistage decision

2016

We prove fixed point theorems for F-contractions of Hardy–Rogers type involving self-mappings defined on metric spaces and ordered metric spaces. An example and an application to multistage decision processes are given to show the usability of the obtained theorems.

010101 applied mathematicsCombinatoricsApplied Mathematics010102 general mathematicslcsh:QA299.6-433F-contractions of Hardy–Rogers type and application to multistage decision processeslcsh:Analysis0101 mathematicsType (model theory)01 natural sciencesAnalysisMathematicsNonlinear Analysis: Modelling and Control
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