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Literature DB >> 26228144

BIOMECHANICS. Jumping on water: Surface tension-dominated jumping of water striders and robotic insects.

Je-Sung Koh¹, Eunjin Yang², Gwang-Pil Jung³, Sun-Pill Jung³, Jae Hak Son⁴, Sang-Im Lee⁵, Piotr G Jablonski⁶, Robert J Wood⁷, Ho-Young Kim⁸, Kyu-Jin Cho⁹.

Abstract

Jumping on water is a unique locomotion mode found in semi-aquatic arthropods, such as water striders. To reproduce this feat in a surface tension-dominant jumping robot, we elucidated the hydrodynamics involved and applied them to develop a bio-inspired impulsive mechanism that maximizes momentum transfer to water. We found that water striders rotate the curved tips of their legs inward at a relatively low descending velocity with a force just below that required to break the water surface (144 millinewtons/meter). We built a 68-milligram at-scale jumping robotic insect and verified that it jumps on water with maximum momentum transfer. The results suggest an understanding of the hydrodynamic phenomena used by semi-aquatic arthropods during water jumping and prescribe a method for reproducing these capabilities in artificial systems.

Entities: Chemical

Mesh：

Substances：
Water

Year: 2015 PMID： 26228144 DOI： 10.1126/science.aab1637

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

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Journal: Science Date: 2016-07-08 Impact factor: 47.728

BIOMECHANICS. Jumping on water: Surface tension-dominated jumping of water striders and robotic insects.

1. Asymmetric drop coalescence launches fungal ballistospores with directionality.

2. Insect-computer hybrid legged robot with user-adjustable speed, step length and walking gait.

3. Hanging droplets from liquid surfaces.

4. Phototactic guidance of a tissue-engineered soft-robotic ray.

5. Jumping robot bests biology by enhancing stored energy.

6. Engineered jumpers overcome biological limits via work multiplication.

7. Field-mediated locomotor dynamics on highly deformable surfaces.

8. Cats use hollow papillae to wick saliva into fur.

Review 9. Interfacial phenomena of water striders on water surfaces: a review from biology to biomechanics.

10. A physical model of mantis shrimp for exploring the dynamics of ultrafast systems.