Journal ArticleDOI
Gradient Effects at Macro, Micro, and Nano Scales
TLDR
In this article, the effects of gradients on the localization and patterning of deformation at various scales ranging from the millimeter (macroscale) down to the nanometer (nanoscale) are discussed.Abstract:
The effects of gradients on the localization and patterning of deformation at various scales ranging from the millimeter (macroscale) down to the nanometer (nanoscale) are discussed. At the nanoscale, a dominant mechanism of deformation is the rearrangement of free nano volume and exchange of momentum between bulk and grain boundary space. At the microscale, a most common mechanism of deformation is dislocation motion. At the macroscale, deformation patterning occurs by the transport of strain from one region of the deforming material to another. In each case, higher order gradients of the respective nano, micro or macro variables are essential to be included in the constitutive equations. This leads to various classes of material behavior including a gradient theory of elasticity, a gradient theory of defect dynamics, and a gradient theory of macroscopic plasticity. Within such \"internal-length\" theories it is possible to discuss the occurrence of deformation patterns at various scales, the determination of width, spacing and velocity of deformation bands, as well as the structure of the crack tip and the removal of associated strain or stress singularities.read more
Citations
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Advances in strength theories for materials under complex stress state in the 20th Century
TL;DR: A survey of the advances in strength theory (yield criteria, failure criterion, etc) of materials (including matellic materials, rock, soil, concrete, ice, iron, polymers, energetic material etc) under complex stress was presented in this paper.
Journal ArticleDOI
Gradient Deformation Models at Nano, Micro, and Macro Scales
TL;DR: In this article, various deformation models incorporating higher-order gradients are discussed and their implications are considered in a variety of problems ranging from the determination of the size of dislocation cores or elastic dislocation interactions, to the determined of wavelengths of dislocations patterns or heterogeneous dislocation distributions and the determined the structure of solid interfaces and of localized strain zones during adiabatic shear deformation.
Journal ArticleDOI
On the gradient approach - Relation to Eringen's nonlocal theory
TL;DR: In this paper, the authors provide an account of the author's gradient approach as applied to elastic and plastic deformations with emphasis on ultrafine grain (ufg) and nanocrystalline (nc) polycrystals, also in comparison with the nonlocal theory.
Journal ArticleDOI
Gradient elasticity and flexural wave dispersion in carbon nanotubes
TL;DR: In this paper, higher-order elasticity theories have been used to predict the dispersion characteristics of flexural waves in carbon nanotubes (CNTs), in particular, nonlocal elasticity and gradient elasticity (with unstable strain gradients) have been employed within the framework of classical Euler-Bernoulli or improved Timoshenko beam theory.
Journal ArticleDOI
A simple, mixtures-based model for the grain size dependence of strength in nanophase metals
TL;DR: In this paper, a model for the strength of nanophase metals is presented, which assumes that polycrystalline metals consist of two phases: the bulk intragranular regions and the grain boundaries.
References
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Second gradient of strain and surface-tension in linear elasticity
TL;DR: In this article, a linear theory of deformation of an elastic solid was formulated, in which the potential energy-density is a function of the strain and its first and second gradients.
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On the validity of the hall-petch relationship in nanocrystalline materials
TL;DR: In this paper, a study experimentale de la variation de la durete en fonction de la grosseur de grain for des materiaux nanocristallins is presented.
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On the role of gradients in the localization of deformation and fracture
TL;DR: In this paper, the role of higher order strain gradients in the localization of plastic flow, the formation and propagation of deformation bands, and the determination of the structure of the crack tip is given.
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The physics of plastic deformation
TL;DR: In this article, a simplified physical picture is extracted from the many complicated processes occuring during plastic deformation, based upon a set of continuously distributed straight edge dislocations, the carriers of plastic deformations, moving along their slip plane, interacting with each other and the lattice, multiplying and annihilating.