A Scalar Arching Model

P. Claudin; J.-P. Bouchaud

arXiv:cond-mat/9711134·cond-mat·May 23, 2007

A Scalar Arching Model

P. Claudin, J.-P. Bouchaud

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TL;DR

This paper introduces an extended scalar arching model that captures stress fluctuations and stick-slip behavior in granular materials, enhancing understanding of stress path dynamics.

Contribution

It extends the Liu, Coppersmith et al. model to include arch formation, providing a more comprehensive representation of granular stress behavior.

Findings

01

Model qualitatively reproduces stress fluctuations.

02

Captures stick-slip motion in granular materials.

03

Enhances understanding of stress path fluctuations.

Abstract

In this paper we propose an extension of the model of Liu, Coppersmith et al., in order to allow for arch formation. This extended model qualitatively captures interesting properties of granular materials due to fluctuations of stress paths, such as stress fluctuations and stick-slip motion.

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Taxonomy

TopicsGranular flow and fluidized beds · Dynamics and Control of Mechanical Systems · Geotechnical and Geomechanical Engineering