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RESEARCH PRODUCT
Growth, percolation, and correlations in disordered fiber networks
S. MajaniemiMikko J. AlavaMikko J. AlavaMikko HaatajaMikko HaatajaTapio Ala-nissilaTapio Ala-nissilaJ. ÅStrömNikolas ProvatasE. Seppäläsubject
Random graphPhysicsStatistical Mechanics (cond-mat.stat-mech)Degree (graph theory)Continuum (topology)FOS: Physical sciencesPair distribution functionStatistical and Nonlinear PhysicsPercolation threshold01 natural sciences010305 fluids & plasmasCorrelation function (statistical mechanics)Percolation0103 physical sciencesCluster (physics)Statistical physics010306 general physicsCondensed Matter - Statistical MechanicsMathematical Physicsdescription
This paper studies growth, percolation, and correlations in disordered fiber networks. We start by introducing a 2D continuum deposition model with effective fiber-fiber interactions represented by a parameter $p$ which controls the degree of clustering. For $p=1$, the deposited network is uniformly random, while for $p=0$ only a single connected cluster can grow. For $p=0$, we first derive the growth law for the average size of the cluster as well as a formula for its mass density profile. For $p>0$, we carry out extensive simulations on fibers, and also needles and disks to study the dependence of the percolation threshold on $p$. We also derive a mean-field theory for the threshold near $p=0$ and $p=1$ and find good qualitative agreement with the simulations. The fiber networks produced by the model display nontrivial density correlations for $p<1$. We study these by deriving an approximate expression for the pair distribution function of the model that reduces to the exactly known case of a uniformly random network. We also show that the two-point mass density correlation function of the model has a nontrivial form, and discuss our results in view of recent experimental data on mass density correlations in paper sheets.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1997-04-01 |