The Role of Adaptive-Deformation of Water Strider Leg in Its Walking on Water

Quan-Shui Zheng; Yang Yu; Xi-Qiao Feng

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The Role of Adaptive-Deformation of Water Strider Leg in Its Walking on Water

机译：跨步水腿自适应变形在水中行走中的作用

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A recent experiment (X. F. Gao and L. Jiang, Nature 432, 36 (2004)) showed that a water strider statically standing on water can bear a load up to 60 times its body weight with its middle and hind legs, which tread deep puddles without piercing the water surface. This fact has been ascribed to the superhydrophobicity of the water strider legs. In the present paper, this viewpoint is argued by our comparative experiments using real water strider legs with superhydrophobicity and artificial legs made of wax-coated steel wires with a much smaller Young's contact angle. It is found that the adaptive-deformation capacity of the real leg through its three joints makes a more important contribution to the superior load-bearing ability than the superhydrophobicity. This conclusion is also demonstrated by our theoretical analysis.

机译：最近的一项实验（XF Gao和L. Jiang，Nature 432，36（2004））表明，静态站立在水面上的水str可以承受其体重的60倍的负荷，中腿和后腿深陷水坑。而不刺破水面。这个事实归因于水str腿的超疏水性。在本文中，通过使用具有超疏水性的真实水str腿和由杨氏接触角小得多的涂蜡钢丝制成的人造腿的对比实验证明了这种观点。结果发现，与超疏水性相比，真实腿部通过其三个关节的自适应变形能力对优越的承重能力做出了更重要的贡献。我们的理论分析也证明了这一结论。

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《Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology 》 |2009年第3期| 共9页
作者
Quan-Shui Zheng; Yang Yu; Xi-Qiao Feng;
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正文语种 eng
中图分类胶粘剂工业 ;
关键词
Water strider leg; super load-bearing capability; superhydrophobicity; adaptive-deformation; explicit model;

机译：跨水腿;超强承重能力;超疏水性;自适应变形;显性模型;

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1. The Role of Adaptive-Deformation of Water Strider Leg in Its Walking on Water [J] . Quan-Shui Zheng, Yang Yu, Xi-Qiao Feng Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2009 ,第3期

机译：跨步水腿自适应变形在水中行走中的作用
2. Water repellency of hierarchically structured　legs of water-walking striders and fire ants [J] . Hurchalla Georgia, Drelich Jaroslaw W. Surface Innovations . 2019 ,第3a4期

机译：步行步行者和火蚁的腿部层次结构的防水性
3. Direction-dependent adhesion of water strider's legs for water-walking [J] . Liang Xu, Xi Yao, Yongmei Zheng Solid state sciences . 2012 ,第8期

机译：str行者腿部与方向有关的附着力，用于走水
4. Study on the Rowing of Flexible Actuating Leg on Water Surface Intimating Water Striders^* [C] . Jihong Yan, Yi Yang, Kai Yang, IEEE International Conference on Information and Automation . 2018

机译：在水面激励性水s上划船柔性致动腿的研究^*
5. Effect of Hierarchical Structure and Orientation on Water-Repellent Legs of Water-Walking Insects [D] . Hurchalla, Georgia N. 2018

机译：层次结构和定向对水行昆虫拒水支路的影响
6. A scanning electron microscopic study of mechanoreceptors in the walking legs of the water strider Gerris remigis. [O] . J V Lawry Jr 1973

机译：扫描电子显微镜研究水ider（Gerris remigis）的行走腿中的机械感受器。
7. Proposal of a Water-repellency Model of Water Strider and Its Verification by Considering Directly Measured Strider Leg-rowing Force [O] . Kaoru Uesugi, Hiroyuki Mayama, Keisuke Morishima 2020

机译：通过考虑直接测量节奏腿划线，提出水力推进模型及其验证

The Role of Adaptive-Deformation of Water Strider Leg in Its Walking on Water

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