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Literature DB >> 12190469

Force chains, microelasticity, and macroelasticity.

Abstract

It has been claimed that quasistatic granular materials, as well as nanoscale materials, exhibit departures from elasticity even at small loadings. It is demonstrated, using 2D and 3D models with interparticle harmonic interactions, that such departures are expected at small scales [below O(100) particle diameters], at which continuum elasticity is invalid, and vanish at large scales. The models exhibit force chains on small scales, and force and stress distributions which agree with experimental findings. Effects of anisotropy, disorder, and boundary conditions are discussed as well.

Year: 2002 PMID： 12190469 DOI： 10.1103/PhysRevLett.89.084302

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

Force chains, microelasticity, and macroelasticity.

1. Non-local rheology in dense granular flows: Revisiting the concept of fluidity.

2. From the stress response function (back) to the sand pile "dip".

3. Numerical study of the stress response of two-dimensional dense granular packings.

4. Particle structuring under the effect of an uniaxial deformation in soft/hard nanocomposites.

5. Elastic medium confined in a column versus the Janssen experiment.

6. Effect of variable particle stiffness on force propagation and mechanical response of a composite granular material.

7. Multi-scale mechanics of granular solids from grain-resolved X-ray measurements.