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arxiv: 2007.10777 · v1 · pith:TPWBEMD2 · submitted 2020-07-21 · cond-mat.soft · physics.app-ph

Elastic stabilisation of wrinkles in thin films by auxetic microstructure

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classification cond-mat.soft physics.app-ph
keywords whenauxeticfilmsthinamplitudedecayelasticpoisson
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Thin elastic sheets and membranes are known to wrinkle when they are stretched -- the associated physics is highly non-linear. The mechanics of thin films that exhibit unusual behavior upon stretching, when they possess auxetic structure, i.e. when their apparent Poisson's ratio is negative, is presented here. Wrinkling is now suppressed within the bulk of auxetic films when tensioned, whereas localized creases confined to the clamps, that decay away exponentially, appear. These edge wrinkles are characterized for their amplitude and wavelength experimentally, theoretically, and computationally, which show excellent agreement with expected trends. The scaling for amplitude, wavelength and decay rate upon film properties and tension is obtained using simple analyses based on kinematic mismatch resulting from lateral Poisson's expansion.

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