Issue 45, 2021
From the journal:

Soft Matter

Directed force propagation in semiflexible networks

Maximilian J. Grill, ORCID logo a   Jonathan Kernes, ORCID logo b   Valentin M. Slepukhin,b   Wolfgang A. Walla  and  Alex J. Levine ORCID logo *bcd  

* Corresponding authors

a Institute for Computational Mechanics, Technical University of Munich, 85748 Garching, Germany

b Department of Physics & Astronomy, University of California, Los Angeles, USA
E-mail: alevine@physics.ucla.edu

c Department of Chemistry & Biochemistry, University of California, Los Angeles, USA

d Department of Computational Medicine, University of California, Los Angeles, USA

Abstract

We consider the propagation of tension along specific filaments of a semiflexible filament network in response to the application of a point force using a combination of numerical simulations and analytic theory. We find the distribution of force within the network is highly heterogeneous, with a small number of fibers supporting a significant fraction of the applied load over distances of multiple mesh sizes surrounding the point of force application. We suggest that these structures may be thought of as tensile force chains, whose structure we explore via simulation. We develop self-consistent calculations of the point-force response function and introduce a transfer matrix approach to explore the decay of tension (into bending) energy and the branching of tensile force chains in the network.

Graphical abstract: Directed force propagation in semiflexible networks

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Article information

DOI
https://doi.org/10.1039/D0SM01177K
Article type
Paper
Submitted
26 Jun 2020
Accepted
03 Dec 2020
First published
08 Dec 2020

Soft Matter, 2021,17, 10223-10241

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Directed force propagation in semiflexible networks

M. J. Grill, J. Kernes, V. M. Slepukhin, W. A. Wall and A. J. Levine, Soft Matter, 2021, 17, 10223 DOI: 10.1039/D0SM01177K

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