Journal article
Structural stability and jamming of self-organized cluster conformations in dense granular materials
A Tordesillas, Q Lin, J Zhang, RP Behringer, J Shi
Journal of the Mechanics and Physics of Solids | Published : 2011
Abstract
We examine emergent, self-organized particle cluster conformations in quasistatically deforming dense granular materials from the perspective of structural stability. A structural mechanics approach is employed, first, to devise a new stability measure for such conformations in equilibrium and, second, to use this measure to explore the evolving stability of jammed states of specific cluster conformations, i.e. particles forming force chains and minimal contact cycles. Knowledge gained on (a) the spatial and temporal evolution of stability of individual jammed conformations and (b) their relative stability levels, offer valuable clues on the rheology and, in particular, self-assembly of gran..
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Grants
Awarded by Army Research Office
Funding Acknowledgements
A.T., Q.L. and J.S. acknowledge the support of the Australian Research Council (Discovery Grant DP0772409) and the US Army Research Office (Single Investigator Grant W911NF-07-1-0370). R.P.B. and J.Z. acknowledge the support of the US Army Research Office (Single Investigator Grant W911NF-07-1-0131). We thank Dr. John F. Peters of the US Army ERDC for many insightful discussions on stability, and Dr. David M. Walker for use of his code to generate minimal cycles.