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Dynamic crystal plasticity: An Eulerian approach
Cazacu, Oana ; Ionescu, Ioan R.
Journal of the
mechanics
and physics of solids, 2010-06, Vol.58 (6), p.844-859
[Periódico revisado por pares]
Elsevier Ltd
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Título:
Dynamic crystal plasticity: An Eulerian approach
Autor:
Cazacu, Oana
;
Ionescu, Ioan R.
Assuntos:
Channel die compression
;
Compressing
;
Crystals
;
Equal-channel die extrusion
;
Eulerian crystal lattice kinematics
;
Evolution
;
Lattices
;
Law
;
Mathematical analysis
;
Mathematical models
;
Rate dependent crystal plasticity
;
Single crystals
É parte de:
Journal of the
mechanics
and physics of solids, 2010-06, Vol.58 (6), p.844-859
Notas:
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
Descrição:
In this paper an Eulerian rate-dependent single crystal model that accounts for high-strain rates, large strains and rotations is developed. The viscoplastic law as well as the evolution equations for the lattice are written in terms of vectorial and tensorial quantities associated with the current configuration. The viscoplastic law is obtained from Schmid law using an overstress approach. Such an expression for the viscoplastic law is motivated by the microdynamics of crystal defects. A general analysis of the plane-strain response of the proposed rigid-viscoplastic single crystal model is presented. It is shown that only one differential equation, involving the orientation of one composite in-plane slip system, is necessary to describe the lattice evolution. Several two-dimensional boundary value problems, such as equal-channel die extrusion and channel die compression are selected to illustrate the predictive capabilities of the model. The results show that even at relatively low strain rates the viscosity plays an important role in the development of localized deformation modes. At high crosshead velocity, the plastic properties and crystal anisotropy are less important while inertia effects are dominant. Finally, the grains interaction is investigated by analyzing the compression of a grains multicrystal.
Editor:
Elsevier Ltd
Idioma:
Inglês
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