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Elasticity of Floppy and Stiff Random Networks
November 19 2008
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Abstract
We study the linear and nonlinear elastic behavior of amorphous systems using a two-dimensional
random network of harmonic springs as a model system. A natural characterization of
these systems arises in terms of the network coordination (average number of springs
per node) relative to that of a marginally rigid network deltaz: a floppy network
has deltaz<0, while a stiff network has deltaz>0. Under the influence of an externally
applied load, we observe that the response of both floppy and stiff networks is controlled
by the critical point corresponding to the onset of rigidity. We use numerical simulations
to compute the exponents which characterize the shear modulus, the heterogeneity of
the response, and the network stiffening as a function of deltaz and derive these
theoretically, thus allowing us to predict aspects of the mechanical response of glasses
and fibrous networks.
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Most cited references17
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Critical Scaling in Linear Response of Frictionless Granular Packings near Jamming
Wouter Ellenbroek, Ellák Somfai, Martin Van Hecke … (2006)