Macroscopic and microscopic mechanical behaviors of climbing tendrils
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Date
Authors
Guo, Q.
Dong, J. J.
Liu, Y.
Xu, X. H.
Qin, Qinghua
Wang, J S
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Springer
Abstract
Tendril-bearing climbing plants must recur to the tendril helices with chiral perversion or dual chirality for climbing and
to obtain sun exposure. Despite researchers’ prolonged fascination with climbing tendrils since Darwin’s time and even
earlier, why the soft and slender tendrils can bear heavy loads such as the self-weight of a plant or additional load caused by
rain remains elusive. In this paper, we take towel gourd tendrils as an example and investigate the macroscopic and microscopic
mechanical behaviors of tendrils through experiments and simulations. Our study indicates that the tendril flament
exhibits rubber-like hyperelastic behaviors and can particularly endure large elongation, which is mainly attributed to the
superelasticity of the cellulose fbril helix contained in the cell wall. Combination of the tendril helical structure with dual
chirality or chiral perversion at a macroscale and a cellulose flament helix at a subcellular level creates superior elasticity for
biological species relying on support and climbing. This study provides deep insight into the structure–property relationship
of climbing tendrils, and the relationship is useful for the bioinspired design of composite systems with superior elasticity.
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Acta Mechanica Sinica
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Restricted until
2099-12-31
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