Double-twist elastomers: mechanical untwisting and chiral buckling
ORAL
Abstract
Motivated by collagen fibrils, we adapt the theory of nematic elastomers to cross-linked double-twist cylinders. We first derive a small angle approximation for the mechanical response, and we show that it provides a good fit to experimental untwisting observed for collagen fibrils under extension. We then explore the mechanics of twisted fibrils under axial compression, and find that phase-separation occurs between highly strained and twisted regions and lightly strained regions. We call this phenomenon ‘chiral buckling’.
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Presenters
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Andrew Rutenberg
Physics, Dalhousie University, Dalhousie Univ
Authors
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Andrew Rutenberg
Physics, Dalhousie University, Dalhousie Univ
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Laurent Kreplak
Physics, Dalhousie University, Physics and atmospheric science, Dalhousie University, Department of Physics and Atmospheric Science, Dalhousie University, Nova Scotia, Canada, Dalhousie Univ
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Matthew Leighton
Simon Fraser Univ, Simon Fraser University