Berlin 2015 – scientific programme

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DS: Fachverband Dünne Schichten

DS 27: Micro- and Nanopatterning

DS 27.3: Talk

Wednesday, March 18, 2015, 15:30–15:45, H 0111

Natural Curvature Induced Folding of an Elastic Film — •Octavio Albarran, Eleni Katifori, and Lucas Goehring — Max Planck institute for dynamics and Self-Organization, Gottingen 37077, Germany

The wrinkling and folding transitions of elastic films have been extensively studied in the last decade. The exchange of energy from stretching to bending acts as a paradigm for a wide range of elastic instabilities, including the wrinkling of the gut, and the crinkling of leaves. In two dimensions this type of problem is typically considered by the model of an elastica in compressive confinement. We show that, even without any external forces, an elastic surface supported by a fluid can bend and wrinkle when it acquires a non-zero natural curvature. Locally, we will demonstrate how a preferential curvature can be related to an effective compression, and hence a confining force that can vary spatially. This suggests a simple experimental setup, where we have characterised a variety of wrinkle patterns that can be generated for different mechanical properties and natural curvatures.