Asymmetric Bending Boundary Layer: the $\lambda$-test
We investigate the mechanics of two ribbons bound at one end and pulled apart at the other ends. We observe the development of a boundary layer at their junction and provide simple analytical expressions for its geometry. Remarkably, the ratio of the bending stiffnesses fully prescribes its shape in...
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| Zusammenfassung: | We investigate the mechanics of two ribbons bound at one end and pulled apart
at the other ends. We observe the development of a boundary layer at their
junction and provide simple analytical expressions for its geometry.
Remarkably, the ratio of the bending stiffnesses fully prescribes its shape
independently of the pulling force. Our results challenge the standard
assumption of neglecting bending stiffness of thin shells at large tensile
loading. In addition, we show how the rotational stiffness of the structure
exhibits a non-linear but universal behavior. Our findings are relevant to a
number of systems where slender structures such as rods and plates are coupled
and provide a straightforward method for measuring stiffness of thin membranes. |
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| DOI: | 10.48550/arxiv.2410.20511 |