Dynamics of Large-Scale Plastic Deformation and the Necking Instability
  in Amorphous Solids

A. E. Lobkovsky; G. Gagnon; J. Aboudi; J. Lubliner; J. S. Langer; J. S. Langer; J. S. Langer; J. S. Langer; J. W. Hutchinson; L. O. Eastgate; L. Pechenik; L. Pechenik; L. E. Malvern; M. L. Falk; M. L. Falk; P. N. Brown; R. M. McMeeking; V. Tvergaard

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Dynamics of Large-Scale Plastic Deformation and the Necking Instability in Amorphous Solids

Authors: A. E. Lobkovsky
G. Gagnon
J. Aboudi
J. Lubliner
J. S. Langer
J. S. Langer
J. S. Langer
J. S. Langer
J. W. Hutchinson
L. O. Eastgate
L. Pechenik
L. Pechenik
L. E. Malvern
M. L. Falk
M. L. Falk
P. N. Brown
R. M. McMeeking
V. Tvergaard
Publication date: 13 September 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We use the shear transformation zone (STZ) theory of dynamic plasticity to study the necking instability in a two-dimensional strip of amorphous solid. Our Eulerian description of large-scale deformation allows us to follow the instability far into the nonlinear regime. We find a strong rate dependence; the higher the applied strain rate, the further the strip extends before the onset of instability. The material hardens outside the necking region, but the description of plastic flow within the neck is distinctly different from that of conventional time-independent theories of plasticity.Comment: 4 pages, 3 figures (eps), revtex4, added references, changed and added content, resubmitted to PR

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