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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Fressengeas, Claude
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (34/34 displayed)
- 2024Complex patterning in jerky flow from time series analysis and numerical simulationcitations
- 2020Revisiting the Application of Field Dislocation and Disclination Mechanics to Grain Boundariescitations
- 2020Revisiting the Application of Field Dislocation and Disclination Mechanics to Grain Boundariescitations
- 2020A continuum model for slip transfer at grain boundaries ; Un modèle continue pour le transfert de glissement aux joints de grainscitations
- 2019Crystal plasticity modeling of the effects of crystal orientation and grain-to-grain interactions on DSA-induced strain localization in Al–Li alloyscitations
- 2019Crystal plasticity modeling of the effects of crystal orientation and grain-to-grain interactions on DSA-induced strain localization in Al–Li alloyscitations
- 2019Spatiotemporal correlations in the Portevin-Le Chatelier band dynamics during the type B - type C transitioncitations
- 2018Geometrically Nonlinear Field Fracture Mechanics and Crack Nucleation, Application to Strain Localization Fields in Al-Cu-Li Aerospace Alloyscitations
- 2018Geometrically Nonlinear Field Fracture Mechanics and Crack Nucleation, Application to Strain Localization Fields in Al-Cu-Li Aerospace Alloyscitations
- 2017On the strain rate dependence of the critical strain for plastic instabilities in Al-Mg alloyscitations
- 2017Interactions between cracks and dislocations in Al-Cu-Li alloys in presence of dynamic strain aging
- 2016Continuous Modeling of Dislocation Cores Using a Mechanical Theory of Dislocation Fields
- 2016Building compact dislocation cores in an elasto-plastic model of dislocation fieldscitations
- 2016Building compact dislocation cores in an elasto-plastic model of dislocation fieldscitations
- 2016A higher order elasto-viscoplastic model using fast Fourier transforms: Effects of lattice curvatures on mechanical response of nanocrystalline metalscitations
- 2016A higher order elasto-viscoplastic model using fast Fourier transforms: Effects of lattice curvatures on mechanical response of nanocrystalline metalscitations
- 2016A field theory of strain/curvature incompatibility for coupled fracture and plasticitycitations
- 2016A field theory of strain/curvature incompatibility for coupled fracture and plasticitycitations
- 2016Continuous description of a grain boundary in forsterite from atomic scale simulations: the role of disclinations Continuous description of a grain boundary in forsterite from atomic scale simulations: the role of disclinationscitations
- 2016Continuous description of a grain boundary in forsterite from atomic scale simulations: the role of disclinations Continuous description of a grain boundary in forsterite from atomic scale simulations: the role of disclinationscitations
- 2016Effects of grain-to-grain interactions on hear strain localization in Al-Cu-Li rolled sheetscitations
- 2016Effects of grain-to-grain interactions on hear strain localization in Al-Cu-Li rolled sheetscitations
- 2015A mesoscopic theory of dislocation and disclination fields for grain boundary-mediated crystal plasticitycitations
- 2015A mesoscopic theory of dislocation and disclination fields for grain boundary-mediated crystal plasticitycitations
- 2015On the effects of the Mg content on the critical strain for the jerky flow of Al–Mg alloyscitations
- 2014A field theory of distortion incompatibility for coupled fracture and plasticitycitations
- 2014A field theory of distortion incompatibility for coupled fracture and plasticitycitations
- 2013Elastic constitutive laws for incompatible crystalline media: the contributions of dislocations, disclinations and G-disclinationscitations
- 2013Elastic constitutive laws for incompatible crystalline media: the contributions of dislocations, disclinations and G-disclinationscitations
- 2011Grain boundary and triple junction energies in crystalline media: A disclination based approachcitations
- 2010Surface Damage and Treatment by Impact of a Low Temperature Nitrogen Jetcitations
- 2008Rearrangement of dislocation structures in the aging of ice single crystalscitations
- 2008Rearrangement of dislocation structures in the aging of ice single crystalscitations
- 2007Evidence for universal intermittent crystal plasticity from acoustic emission and high-resolution extensometry experimentscitations
Places of action
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article
Elastic constitutive laws for incompatible crystalline media: the contributions of dislocations, disclinations and G-disclinations
Abstract
Linear higher-grade higher-order elastic constitutive laws for compatible (defect-free) and incompatible (containing crystal line defects) media are presented. In the proposed model, the free energy density of a body subjected to elastic deformation under the action of surface tractions, moments or hyper-traction tensors (second-order tensors whose anti-symmetric part corresponds to moments) has contributions coming from the first two gradients of displacements. Thermodynamic considerations reveal that only the symmetric component of the gradient of elastic displacement, i.e., compatible elastic strain tensor, and the anti-symmetric component of the second gradient of elastic displacement, i.e., compatible third-order elastic curvature tensor, contribute to the free energy density during compatible deformation of the body. The line crystal defect contributions are accounted for by incorporating the incompatible components of elastic strains, curvatures and symmetric 2-distortions as state variables of the free energy density. In particular, the presence of generalized disclinations (G-disclinations) is acknowledged when the medium is subjected to surface hyper-traction tensors having a non-zero symmetric component along with surface-tractions on its boundary. Mechanical dissipation analysis provides for the coupling between the Cauchy stresses and third-order symmetric hyper-stresses. The free energy density and elastic laws for a defect-free and line crystal defected medium are proposed in a linear setting. In the special case of isotropy, the cross terms between elastic strains and curvatures contribute to the free energy density through a single elastic constant. More interestingly, the Cauchy and couple stresses are found to have contributions coming from both, elastic strains and curvatures.