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W3036731325 abstract "Biological plywoods are multifunctional fibrous composites materials, ubiquitous in nature. The chiral fibrous organization is found in chitin (insects), cellulosics (plants), and collagen I (cornea and bone of mammals) and is a solid analog of that of cholesteric liquid crystals. The surface and interfaces of plywoods are distinguished by hierarchical topographies and nanowrinkling. In this paper, we present a theory to model the emergence of these surfaces and interfaces using liquid crystal-based shape equations that directly connect material properties with geometric wrinkling. The model applies to liquid crystal precursors of the plywood solid analoges. We focus on wrinkling geometry, wrinkling mechanics, and the mechanogeometry relationships that underlie multifunctionality ubiquitous in biological surfaces. Scaling wrinkling laws that connect mechanical pressures and stresses to folding and bending are formulated and quantified. A synthesis of the connections between mechanics and geometry is achieved using the topology of stress curves and curvature of the wrinkles. Taken together the results show that anchoring is a versatile surface morphing mechanism with a rich surface bending stress field, two ingredients behind many potential multifunctionalities." @default.
W3036731325 created "2020-06-25" @default.
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W3036731325 creator A5043017181 @default.
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W3036731325 date "2020-06-19" @default.
W3036731325 modified "2023-09-23" @default.
W3036731325 title "Mechanogeometry of nanowrinkling in cholesteric liquid crystal surfaces" @default.
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W3036731325 doi "https://doi.org/10.1103/physreve.101.062705" @default.
W3036731325 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32688582" @default.
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