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刚性聚合物微纤维阵列的滑动诱导粘附。I. 宏观行为。

Sliding-induced adhesion of stiff polymer microfibre arrays. I. Macroscale behaviour.

作者信息

Lee Jongho, Majidi Carmel, Schubert Bryan, Fearing Ronald S

机构信息

Department of Mechanical Engineering, University of California, Berkeley, CA 94720, USA.

出版信息

J R Soc Interface. 2008 Aug 6;5(25):835-44. doi: 10.1098/rsif.2007.1308.

DOI:10.1098/rsif.2007.1308
PMID:18211864
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2607469/
Abstract

Gecko-inspired microfibre arrays with 42 million polypropylene fibres cm(-2) (each fibre with elastic modulus 1 GPa, length 20 microm and diameter 0.6 microm) were fabricated and tested under pure shear loading conditions, after removing a preload of less than 0.1 N cm(-2). After sliding to engage fibres, 2 cm2 patches developed up to 4N of shear force with an estimated contact region of 0.44 cm2. The control unfibrillated surface had no measurable shear force. For comparison, a natural setal patch tested under the same conditions on smooth glass showed approximately seven times greater shear per unit estimated contact region. Similar to gecko fibre arrays, the synthetic patch maintains contact and increases shear force with sliding. The high shear force observed (approx. 210 nN per fibre) suggests that fibres are in side contact, providing a larger true contact area than would be obtained by tip contact. Shear force increased over the course of repeated tests for synthetic patches, suggesting deformation of fibres into more favourable conformations.

摘要

制备了具有4200万根聚丙烯纤维/平方厘米(每根纤维的弹性模量为1吉帕、长度为20微米、直径为0.6微米)的受壁虎启发的微纤维阵列,并在去除小于0.1牛/平方厘米的预载荷后,在纯剪切载荷条件下进行测试。在滑动以接触纤维后,2平方厘米的贴片产生了高达4牛的剪切力,估计接触面积为0.44平方厘米。对照的未原纤化表面没有可测量的剪切力。为作比较,在相同条件下在光滑玻璃上测试的天然刚毛贴片每单位估计接触面积的剪切力大约大七倍。与壁虎纤维阵列类似,合成贴片通过滑动保持接触并增加剪切力。观察到的高剪切力(每根纤维约210纳牛)表明纤维处于侧面接触,提供了比尖端接触更大的真实接触面积。在对合成贴片进行的重复测试过程中,剪切力增加,表明纤维变形为更有利的构象。

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