Stress and Fold Localization in Thin Elastic Membranes

Pocivavsek, Luka; Dellsy, Robert; Kern, Andrew D.; Johnson, Sebastián; Lin, Binhua; Lee, Ka Yee C.; Cerda, Enrique

doi:10.1126/science.1154069

Cited by 491 publications

(637 citation statements)

References 25 publications

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“…Larger applied strain forces these wrinkles merge into a single fold (Figure 1 d), while the surrounding gold fi lm is intact. [15][16][17] Sub-millimeter thick membranes of PU foam are produced using a simple bar coater setup ( Figure 2 a). A variety of two-component systems are available to produce PU foams, allowing for a wide range of foam densities and morphologies.…”

Section: Localization Of Folds and Cracks In Thin Metal Films Coated mentioning

confidence: 99%

Localization of Folds and Cracks in Thin Metal Films Coated on Flexible Elastomer Foams

et al. 2013

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Section: Localization Of Folds and Cracks In Thin Metal Films Coated mentioning

confidence: 99%

Localization of Folds and Cracks in Thin Metal Films Coated on Flexible Elastomer Foams

et al. 2013

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“…For a thin elastic film supported on a viscous substrate, wrinkles lose their periodicity and transition to localized folds once the total confinement of the thin film approaches one third of the initial wrinkling wavelength [33,34] . The transition to localized deformation may even lead to the fracture of the film [35] .…”

Section: Introductionmentioning

confidence: 99%

The role of substrate pre-stretch in post-wrinkling bifurcations

et al. 2014

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When a stiff film on a soft substrate is compressed, the surface of the film forms wrinkles, with tunable wavelengths and amplitudes that enable a variety of applications. As the compressive strain increases, the film undergoes post-wrinkling bifurcations, leading to period doubling and eventually to formation of localized folds or ridges. Here we study the post-wrinkling bifurcations in films on pre-stretched substrates. Through a combination of experiments and simulations, we demonstrate that pre-stretched substrates not only show substantial shifts in the critical strain for the onset of post-wrinkling bifurcations, but also exhibit qualitatively different post-wrinkled states. In particular, we report on the stabilization of wrinkles in films on pre-tensioned substrates and the emergence of 'chaotic' morphologies in films on pre-compressed substrates.

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“…44Ϫ48 It has been demonstrated that buckling and folding are not independent phenomena and wrinkles appear as a first order linear response to external or internal stresses. 49 Folding and crumpling of compliant structures result in localization of the strain energy into a network of ridges and sharp corners. 50Ϫ52 Herein, we report ultrathin (20Ϫ100 nm) gel films tethered to solid substrates which exhibit unusual spontaneous and regular self-folding under swelling induced compressive stresses.…”

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Swelling-Induced Folding in Confined Nanoscale Responsive Polymer Gels

2010

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Mechanical instabilities such as buckling, wrinkling, creasing, and folding are commonplace in both natural and synthetic systems over a wide range of length scales. In this study, we focus on the spontaneous folding behavior of the highly swellable confined nanoscale (thickness below 100 nm) gel films resulting in the formation of a network of regularly folded structures spontaneously emerging in the course of their swelling and drying. We suggest that regular self-folding is originated from periodic instabilities (wrinkles) caused by swelling-initiated stresses under confined conditions. Furthermore, folded gel structures can be organized into regular serpentine-like manner by imposing various boundary conditions on microimprinted surfaces. We suggest that this demonstration of uniform gel to mechanically mediate morphogenesis has far-reaching implications in the creation of complex, large-area, 3D gel nanostructures.

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Stress and Fold Localization in Thin Elastic Membranes

Cited by 491 publications

References 25 publications

Localization of Folds and Cracks in Thin Metal Films Coated on Flexible Elastomer Foams

Localization of Folds and Cracks in Thin Metal Films Coated on Flexible Elastomer Foams

The role of substrate pre-stretch in post-wrinkling bifurcations

Swelling-Induced Folding in Confined Nanoscale Responsive Polymer Gels

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