Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2008-09-30
Physics
Condensed Matter
Soft Condensed Matter
Scientific paper
We propose a nonlinear extension of the standard tube model for semidilute solutions of freely-sliding semiflexible polymers. Non-affine filament deformations at the entanglement scale, the renormalisation of direct interactions by thermal fluctuations, and the geometry of large deformations are systematically taken into account. The stiffening response predicted for athermal solutions of stiff rods is found to be thermally suppressed. Instead, we obtain a broad linear response regime, supporting the interpretation of shear stiffening at finite frequencies in polymerised actin solutions as indicative of coupling to longitudinal modes. We observe a destabilizing effect of large strains (about 100%), suggesting shear banding as a plausible explanation for the widely observed catastrophic collapse of in-vitro biopolymer solutions, usually attributed to network damage. In combination with friction-type interactions, our analysis provides an analytically tractable framework to address the nonlinear viscoplasticity of biological tissue on a molecular basis.
Fernandez Pablo
Grosser Steffen
Kroy Klaus
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