Nonlinear dynamics in granular columns

Robert S. Sinkovits; Surajit Sen

doi:10.1103/PhysRevLett.74.2686

Nonlinear dynamics in granular columns

Robert S. Sinkovits
, Surajit Sen

Physics

Naval Research Laboratory

Research output: Contribution to journal › Article › peer-review

136 Scopus citations

Abstract

Atomistic simulations of the vertical propagation of perturbations in deep gravitationally compacted granular columns characterized by the intergrain potential Vδδn, with n2 and δ the grain overlap, are shown to recover the results of elasticity theory for weak perturbations. For strong perturbations, the sound velocity cstrong→cweak as z→ with the deviations from cweak best expressed via a certain recursion relation in z. We predict that voids in real granular columns lead to c1-ε, when the void fraction ε is small, and show that the velocity power spectrum of a grain resembles that of a harmonic oscillator chain as z→.

Original language	English
Pages (from-to)	2686-2689
Number of pages	4
Journal	Physical Review Letters
Volume	74
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.74.2686
State	Published - 1995

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10.1103/PhysRevLett.74.2686

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title = "Nonlinear dynamics in granular columns",

abstract = "Atomistic simulations of the vertical propagation of perturbations in deep gravitationally compacted granular columns characterized by the intergrain potential Vδδn, with n2 and δ the grain overlap, are shown to recover the results of elasticity theory for weak perturbations. For strong perturbations, the sound velocity cstrong→cweak as z→ with the deviations from cweak best expressed via a certain recursion relation in z. We predict that voids in real granular columns lead to c1-ε, when the void fraction ε is small, and show that the velocity power spectrum of a grain resembles that of a harmonic oscillator chain as z→.",

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AB - Atomistic simulations of the vertical propagation of perturbations in deep gravitationally compacted granular columns characterized by the intergrain potential Vδδn, with n2 and δ the grain overlap, are shown to recover the results of elasticity theory for weak perturbations. For strong perturbations, the sound velocity cstrong→cweak as z→ with the deviations from cweak best expressed via a certain recursion relation in z. We predict that voids in real granular columns lead to c1-ε, when the void fraction ε is small, and show that the velocity power spectrum of a grain resembles that of a harmonic oscillator chain as z→.

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JO - Physical Review Letters

JF - Physical Review Letters

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Nonlinear dynamics in granular columns

Abstract

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