AI Article Synopsis
- The Gauss theorem links a surface's shape to its Gaussian curvature, forming the basis for shaping elastic sheets that grow or shrink locally.
- We created thin gel sheets that shrink unevenly, resulting in non-Euclidean metrics and requiring the sheets to minimize elastic energy.
- Our findings demonstrate that the sheets can develop large-scale buckling or multiscale wrinkling based on the imposed metrics, with suggested methods for generating each feature type.
Article Abstract
The connection between a surface's metric and its Gaussian curvature (Gauss theorem) provides the base for a shaping principle of locally growing or shrinking elastic sheets. We constructed thin gel sheets that undergo laterally nonuniform shrinkage. This differential shrinkage prescribes non-Euclidean metrics on the sheets. To minimize their elastic energy, the free sheets form three-dimensional structures that follow the imposed metric. We show how both large-scale buckling and multiscale wrinkling structures appeared, depending on the nature of possible embeddings of the prescribed metrics. We further suggest guidelines for how to generate each type of feature.
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| http://dx.doi.org/10.1126/science.1135994 | DOI Listing |
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