2018
DOI: 10.1016/j.jmps.2018.02.019
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Quasi-static incremental behavior of granular materials: Elastic–plastic coupling and micro-scale dissipation

Abstract: The paper addresses a common assumption of elastoplastic modeling: that the recoverable, elastic strain increment is unaffected by alterations of the elastic moduli that accompany loading. This assumption is found to be false for a granular material, and discrete element (DEM) simulations demonstrate that granular materials are coupled materials at both microand macro-scales. Elasto-plastic coupling at the macro-scale is placed in the context of thermomechanics framework of Tomasz Hueckel and Hans Ziegler, in … Show more

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Cited by 17 publications
(8 citation statements)
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“…We note, again, that the reversible strain is not the "recoverable strain," as irreversible processes in the form of contact slip, contact micro-slip, and particle rearrangement occur at all stages and in all directions of a loading-unloading cycle in stress-space. The technique for isolating the reversible part of a strain increment was used in [24] to demonstrate that granular materials exhibit elastic-plastic coupling and that during strain hardening, contact slip -a distinctly irreversible mechanism -accompanies loading in any direction. Another irreversible mechanism, the non-dissipative gain and loss of contacts, can also occur during deformation [43], and this mechanism was not precluded in the AB probes.…”
Section: Stress Probe Methodsmentioning
confidence: 99%
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“…We note, again, that the reversible strain is not the "recoverable strain," as irreversible processes in the form of contact slip, contact micro-slip, and particle rearrangement occur at all stages and in all directions of a loading-unloading cycle in stress-space. The technique for isolating the reversible part of a strain increment was used in [24] to demonstrate that granular materials exhibit elastic-plastic coupling and that during strain hardening, contact slip -a distinctly irreversible mechanism -accompanies loading in any direction. Another irreversible mechanism, the non-dissipative gain and loss of contacts, can also occur during deformation [43], and this mechanism was not precluded in the AB probes.…”
Section: Stress Probe Methodsmentioning
confidence: 99%
“…With each principle, we more fully ascertain granular behavior and the nature of the nonconformity or agreement. The first principle was the focus of a second article by the authors [24], which demonstrated that elastic strain increments, although recoverable, are not reversible, a finding that is more fully described below in the context of elastic-plastic coupling [26,27]. As such, the elastic-plastic partition of strain increments -the basis of the first principle -is replaced with a reversible-irreversible partition, and the terms "reversible" and "irreversible", defined below, will replace elastic and plastic in this work (see also [28,29]).…”
Section: Alonso-marroquínmentioning
confidence: 99%
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