[1]汪鑫,李倩,薛龙建.仿生柱状粘附材料[J].中国材料进展,2017,(1):021-25.[doi:10.7502/j.issn.1674-3962.2017.01.07]
WANG Xin,LI Qian,XUE Longjian.Biomimetic Micro- and Nanopillar Adhesives[J].MATERIALS CHINA,2017,(1):021-25.[doi:10.7502/j.issn.1674-3962.2017.01.07]
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仿生柱状粘附材料(
)
中国材料进展[ISSN:1674-3962/CN:61-1473/TG]
- 卷:
-
- 期数:
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2017年第1期
- 页码:
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021-25
- 栏目:
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前沿综述
- 出版日期:
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2017-01-31
文章信息/Info
- Title:
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Biomimetic Micro- and Nanopillar Adhesives
- 作者:
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汪鑫; 李倩; 薛龙建
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武汉大学
- Author(s):
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WANG Xin; LI Qian; XUE Longjian
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Wuhan University
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- 关键词:
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仿生材料; 干态粘附; 湿态粘附; 摩擦; 柱状阵列; 聚合物; 壁虎
- Keywords:
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bioinspired materials; dry adhesion; wet adhesion; friction; pillar array; polymer; gecko
- DOI:
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10.7502/j.issn.1674-3962.2017.01.07
- 文献标志码:
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A
- 摘要:
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自然界中很多动物,如壁虎、甲虫和树蛙等,主要利用可逆的粘附力在各种表面爬行。研究发现这些动物脚趾上的特殊微纳柱状结构(刚毛、平滑结构等)起到了至关重要的作用。这些柱状微纳结构及其精细亚结构保证了动物脚趾能与接触表面形成很多的有效接触点,从而形成足够强的粘附力,可达动物体重的200倍。另一方面,这些微纳结构又可以保证动物能从粘附的表面迅速脱离。这种粘附能力依赖于结构而非接触材料的表面化学组成的特性,具有极高的科研价值和应用前景。
- Abstract:
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Many animals (gecko, beetle, tree frog, etc.) can climb on various substrates by reversible adhesion forces, which are determined by the micro/nano-pillar structures (seta, smooth pad, etc.) on their toe pads. The mirco/nano-pillars with fine sub-structures ensure numerous effective contact points between the toe pad and the substrate, forming tremendous adhesion forces as high as 200 folds of animal’s body weight. On the other hand, the fine structures in mirco/nano-pillars also ensure the effective detachment from the adhering surface. The adhesion abilities, relying on the fine structures rather than the surface chemistry, arise great scientific interests and wide potential applications.
更新日期/Last Update:
2016-12-26