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Bioinspired Adhesion: Multiple Mechanical Gradients are Responsible for the Strong Adhesion of Spider Attachment Hair (Adv. Mater. 37/2020)
Advanced Materials ( IF 27.4 ) Pub Date : 2020-09-15 , DOI: 10.1002/adma.202070280 Silja Flenner 1, 2 , Clemens F. Schaber 3 , Igor Krasnov 2 , Hergen Stieglitz 1, 2 , Martin Rosenthal 4 , Manfred Burghammer 4 , Stanislav N. Gorb 3 , Martin Müller 1, 2
Advanced Materials ( IF 27.4 ) Pub Date : 2020-09-15 , DOI: 10.1002/adma.202070280 Silja Flenner 1, 2 , Clemens F. Schaber 3 , Igor Krasnov 2 , Hergen Stieglitz 1, 2 , Martin Rosenthal 4 , Manfred Burghammer 4 , Stanislav N. Gorb 3 , Martin Müller 1, 2
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Nanostructured adhesive hairs on the feet of spiders are responsible for strong adhesion, enabling the animals to walk vertically and upside down. In article number 2002758, Clemens F. Schaber, Martin Müller, and co‐workers use scanning nanofocus X‐ray scattering under force control to elucidate the mechanism of alignment and consequently strong attachment of the nanostructures to a glass surface. The spider attachment system is a promising model for the development of powerful residue‐free dry adhesives.
中文翻译:
受生物启发的附着力:多种机械梯度对蜘蛛附着头发的强附着力负责(Adv。Mater。37/2020)
蜘蛛脚上的纳米结构毛发具有很强的附着力,使动物能够垂直和上下行走。在2002758号文章中,Clemens F. Schaber,MartinMüller和他的同事在力控制下使用扫描纳米聚焦X射线散射来阐明对准的机理,并由此阐明了纳米结构与玻璃表面的牢固附着。Spider附着系统是开发功能强大,无残留的干胶的有前途的模型。
更新日期:2020-09-15
中文翻译:
受生物启发的附着力:多种机械梯度对蜘蛛附着头发的强附着力负责(Adv。Mater。37/2020)
蜘蛛脚上的纳米结构毛发具有很强的附着力,使动物能够垂直和上下行走。在2002758号文章中,Clemens F. Schaber,MartinMüller和他的同事在力控制下使用扫描纳米聚焦X射线散射来阐明对准的机理,并由此阐明了纳米结构与玻璃表面的牢固附着。Spider附着系统是开发功能强大,无残留的干胶的有前途的模型。
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