Bifurcations of buckled, clamped anisotropic rods and thin bands under lateral end translations

Bifurcations of buckled, clamped anisotropic rods and thin bands under lateral end translations

Motivated by observations of snap-through phenomena in buckled elastic strips subject to clamping and lateral end translations, we experimentally explore the multi-stability and bifurcations of thin bands of various widths and compare these results with numerical continuation of a perfectly anisotro...

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Bibliographic Details
Published in:Journal of the mechanics and physics of solids Vol. 122; pp. 657 - 685
Main Authors: Yu, T., Hanna, J.A.
Format: Journal Article
Language:English
Published: London Elsevier Ltd 01-01-2019
Elsevier BV
Subjects:
Anisotropy
Bend strength
Bifurcations
Boundary conditions
Clamping
Crystallography
Deformation
Lateral stability
Materials elasticity
Mathematical models
Rods
Translations
Twisting
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Summary:Motivated by observations of snap-through phenomena in buckled elastic strips subject to clamping and lateral end translations, we experimentally explore the multi-stability and bifurcations of thin bands of various widths and compare these results with numerical continuation of a perfectly anisotropic Kirchhoff rod. Our choice of boundary conditions is not easily satisfied by the anisotropic structures, forcing a cooperation between bending and twisting deformations. We find that, despite clear physical differences between rods and strips, a naive Kirchhoff model works surprisingly well as an organizing framework for the experimental observations. In the context of this model, we observe that anisotropy creates new states and alters the connectivity between existing states. Our results are a preliminary look at relatively unstudied boundary conditions for rods and strips that may arise in a variety of engineering applications, and may guide the avoidance of jump phenomena in such settings. We also briefly comment on the limitations of current strip models.
ISSN:0022-5096
1873-4782
DOI:10.1016/j.jmps.2018.01.015