Force distribution in a scalar model for non-cohesive granular material

Complex Systems; David G. Schaeffer (Center for Nonlinear; Duke U.); Joshua E. S. Socolar; Matthew G. Sexton

arxiv: cond-mat/9810392 · v1 · submitted 1998-10-29 · ❄️ cond-mat.soft · cond-mat.mtrl-sci

Force distribution in a scalar model for non-cohesive granular material

Matthew G. Sexton , Joshua E. S. Socolar , David G. Schaeffer (Center for Nonlinear , Complex Systems , Duke U.) This is my paper

classification ❄️ cond-mat.soft cond-mat.mtrl-sci

keywords forcesgranularmodelnon-cohesiveresultsscalarappearapplied

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We study a scalar lattice model for inter-grain forces in static, non-cohesive, granular materials, obtaining two primary results. (i) The applied stress as a function of overall strain shows a power law dependence with a nontrivial exponent, which moreover varies with system geometry. (ii) Probability distributions for forces on individual grains appear Gaussian at all stages of compression, showing no evidence of exponential tails. With regard to both results, we identify correlations responsible for deviations from previously suggested theories.

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Force distribution in a scalar model for non-cohesive granular material

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