Search results for "Duhem"

showing 9 items of 9 documents

A nonhomogeneous nonlocal elasticity model

2006

Nonlocal elasticity with nonhomogeneous elastic moduli and internal length is addressed within a thermodynamic framework suitable to cope with continuum nonlocality. The Clausius–Duhem inequality, enriched by the energy residual, is used to derive the state equations and all other thermodynamic restrictions upon the constitutive equations. A phenomenological nonhomogeneous nonlocal (strain difference-dependent) elasticity model is proposed, in which the stress is the sum of two contributions, local and nonlocal, respectively governed by the standard elastic moduli tensor and the (symmetric positive-definite) nonlocal stiffness tensor. The inhomogeneities of the elastic moduli and of the int…

Cauchy stress tensorMechanical EngineeringConstitutive equationMathematical analysisGeneral Physics and AstronomyClausius–Duhem inequalityMechanics of MaterialsSymmetric tensorGeneral Materials ScienceUniquenessElasticity (economics)MathematicsNumerical stabilityStiffness matrixEuropean Journal of Mechanics - A/Solids
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Thermodynamically consistent residual-based gradient plasticity theory and comparison

2006

A gradient plasticity theory for small deformations is presented within the framework of nonlocal continuum thermodynamics. The second principle (Clausius–Duhem inequality), enriched by an additional term named energy residual, is employed in conjunction with the concepts of insulation condition and locality recovery condition, in order to derive all the pertinent restrictions upon the constitutive equations. These include the expressions of the energy residual and of the plastic dissipation density, as well as the PDEs governing the gradient kinematic and isotropic hardening of the material, together with the related higher-order boundary conditions for both the fixed and the moving bounda…

Continuum (topology)Differential equationEnergy dissipationMathematical analysisConstitutive equationKinematicsBoundary conditionDissipationClausius–Duhem inequalityCondensed Matter PhysicsResidualKinematicComputer Science ApplicationsDifferential equationMechanics of MaterialsModeling and SimulationThermodynamicsGeneral Materials ScienceBoundary value problemPlastic deformationMathematics
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A link between the residual-based gradient plasticity theory and the analogous theories based on the virtual work principle

2009

A link is shown to exist between the so-called residual-based strain gradient plasticity theory and the analogous theories based on the (extended) virtual work principle (VWP). To this aim, the former theory is reformulated and cast in a residual-free form, whereby the insulation condition and the (nonlocal) Clausius–Duhem inequality, on which the theory is grounded, are substituted with equivalent residual-free ingredients, namely the energy balance condition and the residual-free form of the Clausius–Duhem inequality. The equivalence of the residual-free formulation to the original one is shown, also in their ability to cope with energetic size effects and interfacial energy ones. It emer…

Gradient plasticityClassical mechanicsMechanics of MaterialsMechanical EngineeringEnergy balanceGeneral Materials ScienceVirtual workClausius–Duhem inequalityResidualSimilarity solutionLink (knot theory)Equivalence (measure theory)MathematicsInternational Journal of Plasticity
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From fracture to damage mechanics: a behavior law for microcracked composites using the concept of crack opening mode

2010

International audience; Many studies have been carried out in order to build a coherent macroscopic behavior law for a composite containing microcracks. All of them are only partially coherent and none of them is complete. This study proposes a hyperelastic behavior law for a microcracked composite, respecting all the conditions associated with the damage activation/deactivation, stress/strain relation continuity, induced anisotropy and the Clausius–Duhem inequality. This approach is based on the definition of the Crack Opening Mode for Damage Mechanics as it exists in Fracture Mechanics.

Materials scienceComposite number[ PHYS.COND.CM-MS ] Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]02 engineering and technologyClausius–Duhem inequalityCrack Opening ModeStress (mechanics)0203 mechanical engineeringDamage mechanicsUnilateral effect of damageDamage mechanicsmedicineHyperelastic behaviorComposite materialCivil and Structural EngineeringFissureMicrocracksFracture mechanics021001 nanoscience & nanotechnology020303 mechanical engineering & transportsmedicine.anatomical_structureLawHyperelastic material[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Ceramics and CompositesFracture (geology)0210 nano-technology
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A thermodynamics-based formulation of gradient-dependent plasticity

1998

Abstract A nonlocal thermodynamic theoretical framework is provided as a basis for a consistent formulation of gradient-dependent plasticity in which a scalar internal variable measuring the material isotropic hardening/softening state is the only nonlocal variable. The main concepts of this formulation are: i) the ‘regularization operator’, of differential nature, which governs the relation between the above nonlocal variable and a related local variable (scalar measure of plastic strain) and confers a unified character to the proposed formulation (this transforms into a formulation for nonlocal plasticity if the regularization operator has an integral nature); ii) the ‘nonlocality residua…

Mechanical EngineeringConstitutive equationGeneral Physics and AstronomyThermodynamicsClausius–Duhem inequalityStrain hardening exponentPlasticityDissipationQuantum nonlocalityClassical mechanicsMechanics of MaterialsGeneral Materials ScienceBoundary value problemShear bandMathematicsEuropean Journal of Mechanics - A/Solids
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A unified residual-based thermodynamic framework for strain gradient theories of plasticity

2011

Abstract A unified thermodynamic framework for gradient plasticity theories in small deformations is provided, which is able to accommodate (almost) all existing strain gradient plasticity theories. The concept of energy residual (the long range power density transferred to the generic particle from the surrounding material and locally spent to sustain some extra plastic power) plays a crucial role. An energy balance principle for the extra plastic power leads to a representation formula of the energy residual in terms of a long range stress, typically of the third order, a macroscopic counterpart of the micro-forces acting on the GNDs (Geometrically Necessary Dislocations). The insulation …

Mechanical EngineeringConstitutive equationMechanicsPlasticityClausius–Duhem inequalityDissipationClassical mechanicsMechanics of MaterialsVariational principleDissipative systemGeneral Materials ScienceBoundary value problemMathematicsFree energy principleInternational Journal of Plasticity
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Strain-gradient elastic-plastic material models and assessment of the higher order boundary conditions

2007

Abstract A gradient elastic material model exhibiting gradient kinematic and isotropic hardening is addressed within a thermodynamic framework suitable to cope with nonlocal-type continua. The Clausius–Duhem inequality is used, in conjunction with the concepts of energy residual, insulation condition and locality recovery condition, to derive all the pertinent restrictions upon the constitutive equations, including the PDEs and the related higher order (HO) boundary conditions that govern the gradient material behaviour. Through a suitable limiting procedure, the HO boundary conditions are shown to interpret the action, upon the body's boundary surface, of idealized extra HO constraints cap…

Mechanical EngineeringTraction (engineering)Mathematical analysisConstitutive equationGeneral Physics and AstronomyBoundary (topology)Mixed boundary conditionClausius–Duhem inequalityBoundary conditions in CFDMechanics of MaterialsGeneral Materials ScienceCalculus of variationsBoundary value problemMathematicsEuropean Journal of Mechanics - A/Solids
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Phase separation in multi-component mixtures: the four-component case

2002

Abstract Calculation of ternary phase diagrams for several mixtures formed by two salts and a neutral component is presented here. The phase diagrams are obtained by inspection of the shape of the Gibbs free energy of mixing surface (Gmix) as a function of the composition at constant temperature and pressure. The Gmix surface is calculated by the mean spherical approximation (MSA). The model for the mixtures is represented by hard spheres, with the charged components interacting via a Coulomb potential. The results are interpreted in terms of a thermodynamic analysis of the contributions to the Gibbs free energy of mixing, i.e., the configurational energy, the volume and the entropy of mixi…

Statistics and ProbabilityMaterials scienceComponent (thermodynamics)ThermodynamicsHard spheresEntropy of mixingCondensed Matter PhysicsGibbs free energysymbols.namesakeVolume (thermodynamics)Gibbs–Duhem equationsymbolsCALPHADPhase diagramPhysica A: Statistical Mechanics and its Applications
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Epistemologia tieteenhistorian hahmotuksessa

1998

tieteenhistoriaKoyré AlexandreepistemologiaDuhem PierreWhewell William
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