摘要
Biomaterials such as bone,teeth,nacre and silk are known to have superior mechanical properties due to their specific nanocomposite structures.Here we report that the woodpecker's tongue exhibits a novel strength and flexibility due to its special composite micro/nanostructure.The tongue consists of a flexible cartilage-and-bone skeleton covered with a thin layer tissue of high strength and elasticity.At the interface between the cartilage-and-bone skeleton and the tissue layer,there is a hierarchical fiber-typed connection.It is this special design of the tongue that makes the woodpeckers efficient in catching the insects inside trees.The special micro/nanostructures of the woodpecker's tongue show us a potential method to enhance the interfacial connection between soft and hard material layers for bio-inspired composite system designs.
Biomaterials such as bone,teeth,nacre and silk are known to have superior mechanical properties due to their specific nanocomposite structures.Here we report that the woodpecker's tongue exhibits a novel strength and flexibility due to its special composite micro/nanostructure.The tongue consists of a flexible cartilage-and-bone skeleton covered with a thin layer tissue of high strength and elasticity.At the interface between the cartilage-and-bone skeleton and the tissue layer,there is a hierarchical fiber-typed connection.It is this special design of the tongue that makes the woodpeckers efficient in catching the insects inside trees.The special micro/nanostructures of the woodpecker's tongue show us a potential method to enhance the interfacial connection between soft and hard material layers for bio-inspired composite system designs.
基金
supported by the National Natural Science Foundation of China (Projects Nos. 10672035,10802019,10721062 and 90816025).
