Benefits and shortcomings of the continuous theory of dislocations

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Publication:5926622

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DOI10.1016/S0020-7683(00)00077-9zbMath1010.74011OpenAlexW2075857689WikidataQ127908984 ScholiaQ127908984MaRDI QIDQ5926622

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Publication date: 13 May 2003

Published in: International Journal of Solids and Structures (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/s0020-7683(00)00077-9

zbMATH Keywords

hardening defect dislocations elastoplastic crystalline solid material manifold ordered crystalline structure point defects softening tensor of dislocation density

Mathematics Subject Classification ID

Crystalline structure (74E15) Large-strain, rate-independent theories of plasticity (including nonlinear plasticity) (74C15) Micromechanical theories (74A60)

Related Items (19)

Unnamed Item ⋮ Covariant gradient continua applied to wave propagation within defective material ⋮ Inspection of free energy functions in gradient crystal plasticity ⋮ On the microscopic definitions of the dislocation density tensor ⋮ A fracture criterion for finitely deforming crystalline solids -- the dynamic fracture of single crystals ⋮ Elasto-plastic evolution of single crystals driven by dislocation flow ⋮ A stochastic study of the collective effect of random distributions of dislocations ⋮ Creep and recrystallization of large polycrystalline masses. I. General continuum theory ⋮ EBSD-based continuum dislocation microscopy ⋮ Strain incompatibility in single crystals: Kröner's formula revisited ⋮ A distributional approach to the geometry of \(2D\) dislocations at the continuum scale ⋮ Collective behaviour of dislocations in a finite medium ⋮ A multiscale gradient theory for single crystalline elastoviscoplasticity ⋮ Size effects in phenomenological strain gradient plasticity constitutively involving the plastic spin ⋮ An overlapping domain decomposition method for the simulation of elastoplastic incremental forming processes ⋮ Beyond classical thermodynamics: dislocation-mediated plasticity ⋮ A comparison between crystal and isotropic strain gradient plasticity theories with accent on the role of the plastic spin ⋮ On configurational compatibility and multiscale energy momentum tensors ⋮ A variational multiscale method to incorporate strain gradients in a phenomenological plasticity model

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