aDepartment of Mathematical Sciences, Carnegie Mellon University, Pittsburgh, PA 15213, USA
bDepartment of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA
A recent paper on JMPS has seriously questioned the foundation of the SGP theory of Fleck and Hutchinson. The matter is not simple, but is it a good bench test for imechanica to discuss?
doi:10.1016/j.jmps.2008.12.002
Copyright © 2009 Elsevier Ltd All rights reserved.
Thermodynamics applied to gradient theories involving the accumulated
plastic strain: The theories of Aifantis and Fleck and Hutchinson and
their generalization
Morton E. Gurtina, 1, mg0c [at] andrew.cmu.edu () and Lallit Anandb, , anand [at] mit.edu ()
Received 4 December 2007;
revised 2 December 2008;
accepted 9 December 2008.
Available online 16 December 2008.
Abstract
We discuss the physical nature of flow
rules for rate-independent (gradient) plasticity laid down by Aifantis
and by Fleck and Hutchinson. As a central result we show that:
- •
the flow rule of Fleck and Hutchinson is incompatible with
thermodynamics unless its nonlocal term is dropped. If the underlying
theory is augmented by a general defect energy dependent on γp and γp, then compatibility with thermodynamics requires that its flow rule reduce to that of Aifantis.
We
establish this result (and others) within a general framework obtained
by combining a virtual-power principle of Fleck and Hutchinson with the
first two laws of thermodynamics—balance of energy and the
Clausius–Duhem inequality—under isothermal conditions.
Keywords: Constitutive behavior; Viscoplasticity; Strain-gradient plasticity; Prinicipla of virtual power; Thermodynamics
a couple papers with "corrected" flow rule
In this more recent paper from Fleck and Willis "due attention is paid to ensure that positive plastic work is done". I am not sure if they refer to the "Drucker stability" postulates, but I wonder if a non-associative SGP theory could be imagined.
Journal of the Mechanics and Physics of Solids, Volume 57, Issue 1, January 2009, Pages 161-177
N.A. Fleck, J.R. Willis
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International Journal of Plasticity, In Press, Corrected Proof, Available online 31 December 2008
George Z. Voyiadjis, Babur Deliktas
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In reply to a couple papers with "corrected" flow rule by Mike Ciavarella
could you upload your paper ?
dear Mike Ciavarella:
I am very interested in strain gradient plasticity theory .Now I am focusing on this theory ,unfortunately ,you say that "Strain gradient plasticity: the flow rule of Fleck and Hutchinson violates thermodynamics ?" This is a serious thing .I really want to read your papers and look forward to your further study on this issue.
That's not my paper, and I cannot upload it here, but...
I warn you, the paper is not trivial to read, it is very advanced material, and a little "academic". Why you want to read his so much?
doi:10.1016/j.jmps.2008.12.002
Copyright © 2009 Elsevier Ltd All rights reserved.
Thermodynamics applied to gradient theories involving the accumulated
plastic strain: The theories of Aifantis and Fleck and Hutchinson and
their generalization
Morton E. Gurtina,
1,
mg0c [at] andrew.cmu.edu and Lallit Anand
maybe you prefer
The very bizzare story of the
paper: FFEMS-4283 - A simplified "damage ...
Michele Ciavarella, Politecnico di BARI - Italy, Rector's delegate.
http://poliba.academia.edu/micheleciavarella
Editor, Italian Science Debate, www.sciencedebate.it
Associate Editor, Ferrari Millechili Journal