Bionic Jump Mechanism Analysis Based on Locust Hind

Dong Hui Chen; Heng Xie; Shao Bo Ye; Ting Wu; Xin Lu; Zhi Yong Chang

doi:10.4028/www.scientific.net/AMM.461.184

Paper Titles

What is a Physicist Doing in the Jungle? Biomimetics of the Rainforest
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Aerodynamic Force Test on Tethered Bamboo Beetle Otidognathus davidis fair
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Bionic Flexible Wings Design of the Flapper
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Bionic Jump Mechanism Analysis Based on Locust Hind
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Design and Kinematics Analysis of a Bionic Mechanical Goat Hoof
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Drag Reduction Study about Bird Feather Herringbone Riblets
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Experimental Research on a Novel Design of Variable Area Caudal Fin
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Finite Element Analysis in the Characteristics of Ostrich Foot Toenail Traveling on Sand
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 461Bionic Jump Mechanism Analysis Based on Locust...

Bionic Jump Mechanism Analysis Based on Locust Hind

Abstract:

The structure of corn stubble was complex and closely combined with the soil, so dig location and root-soil separation are the urgent problem of the manufacturing of corn stubble harvesting machinery. This paper mainly focuses on investigating the interaction principles of corn stubble and soil which by the UU triaxial compression tests. Compared the shear strength of three different types of corn root-soil complexes (vertical root, horizontal root, complex root) and pure soil, and analyzed three important factors affecting the root-soil complex shear strength, it was shown that the presence of corn fibrous root can enhance the soil shear strength and different with their layout types. It will provide a theoretical basis for the design of bionic agricultural tillage components for root- soil separation.

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Periodical:

Applied Mechanics and Materials (Volume 461)

Pages:

184-190

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.461.184

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Online since:

November 2013

Authors:

Dong Hui Chen, Heng Xie, Shao Bo Ye, Ting Wu, Xin Lu, Zhi Yong Chang

Keywords:

Inertia Movement, Jump, Rotational Inertia

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