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壁虎粘附微观力学机制的仿生研究进展
  • ISSN号:1000-0992
  • 期刊名称:力学进展
  • 时间:2012
  • 页码:282-293
  • 分类:TB39[一般工业技术—材料科学与工程]
  • 作者机构:[1]中国科学院力学研究所非线性力学国家重点实验室,北京100190
  • 相关基金:国家自然科学基金项目 (10972220, 10732050, 11125211) 资助
  • 相关项目:微尺度塑性与表面/界面力学
作者: 陈少华|志龙|
关键词: 壁虎, , 铲状纤维, , 微观粘附机制, , 仿生, , 有限尺寸纳米薄膜, gecko, spatula, micro-mechanism of adhesion, biomimetic, nano-film with finite size
中文摘要:

本文针对壁虎粘附系统最小单元的真实形状, 类似于有限尺寸纳米薄膜的铲状纤维, 综述了对其微观粘附力学机制主要影响因素的多个研究, 主要考虑了有限尺寸纳米薄膜长度、厚度、撕脱角等对撕脱力的影响; 物体表面粗糙度以及环境湿度等对粘附的影响因素; 包括实验、理论及数值模拟的研究及结果比较. 最后给出仿生粘附力学方向仍然存在的主要科学问题及进一步的研究展望.

英文摘要:

A class of animals possesses special climbing abilities in nature, which attracts enormous academic interests. To investigate the macro- and micro-mechanisms of such animals' adhesion can not only develop relevant surface/interface mechanics, but also provide novel ideas for the design of advanced adhesive materials and appropriate adhesive system for a micro-climbing robot, and shed lights on solving methods for adhesive failure problems in MEMS/NEMS and AFM. Experiments have found that the adhesive system on gecko's foot is hierarchical, which will produce strong adhesion. There are millions of setae on a gecko's foot and each seta will branch into hundreds of spatulae. The spatula is the smallest adhesive structure in a gecko's foot, which is about 200nm in width and length, about 5nm in thickness. The adhesive behavior of a spatula on a surface looks like that of a finite-sized nano-film. The basic principle of the adhesion is due to Van Der Waals force between two surfaces. Plenty of spatulae will cause the adhesion force large enough to support the weight of a gecko. In the present paper, considering the real shape of the smallest adhesive structure, which is similar to a nano-film with a finite length, we present an overview of the main influence factors of the micro-adhesion mechanism of gecko's spatula, including the effects of adhesion length, thickness and peeling angles of a finite nano-film on the adhesion force, the effects of surface roughness and environmental humidity on surface/interface adhesion. Experimental investigations as well as theoretical and numerical studies are also reviewed. Finally, possible challenges and future development of the biomimetic adhesive mechanics are proposed and prospected.

同期刊论文项目
天然生物材料的多尺度力学与仿生研究
期刊论文 134 会议论文 4
可逆黏附微观机制的仿生研究
期刊论文 3
微尺度塑性与表面/界面力学
期刊论文 46 会议论文 9 获奖 6
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期刊信息
  • 《力学进展》
  • 北大核心期刊(2014版)
  • 主管单位:中国科学院
  • 主办单位:中国科学院力学研究所 中国力学学会
  • 主编:樊菁
  • 地址:北京市海淀区北四环西路15号
  • 邮编:100190
  • 邮箱:lxjz@cstam.org.cn
  • 电话:010-62637035
  • 国际标准刊号:ISSN:1000-0992
  • 国内统一刊号:ISSN:11-1774/O3
  • 邮发代号:82-331
  • 获奖情况:
  • 1996、2000年分别获中科院优秀期刊三等、二等奖,1998年列入数理力学类的第三名,中国期刊方阵“双效”期刊
  • 国内外数据库收录:
  • 德国数学文摘,荷兰文摘与引文数据库,美国工程索引,日本日本科学技术振兴机构数据库,美国应用力学评论,中国中国科技核心期刊,中国北大核心期刊(2004版),中国北大核心期刊(2008版),中国北大核心期刊(2011版),中国北大核心期刊(2014版),中国北大核心期刊(2000版)
  • 被引量:13273