James Slonaker scite author profile

James Slonaker

2Publications

30Citation Statements Received

35Citation Statements Given

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IIT@MIT

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General scaling relations for locomotion in granular media

et al. 2017

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We derive a general dimensionless form for granular locomotion, which is validated in experiments and Discrete Element Method (DEM) simulations. The form instructs how to scale size, mass, and driving parameters in order to relate dynamic behaviors of different locomotors in the same granular media. The scaling can be derived by assuming intrusion forces arise from Resistive Force Theory (RFT) or equivalently by assuming the granular material behaves as a continuum obeying a frictional yield criterion. The scalings are experimentally confirmed using pairs of wheels of various shapes and sizes under many driving conditions in a common sand bed. We discuss why the two models provide such a robust set of scaling laws even though they neglect a number of the complexities of granular rheology. Motivated by potential extra-planetary applications, the dimensionless form also implies a way to predict wheel performance in one ambient gravity based on tests in a different ambient gravity. We confirm this using DEM simulations, which show that scaling relations are satisfied over an array of driving modes even when gravity differs between scaled tests.

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Publisher's Note: General scaling relations for locomotion in granular media [Phys. Rev. E 95 , 052901 (2017)]

Slonaker¹,

Motley²,

Zhang³

et al. 2017

Phys. Rev. E

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James Slonaker

General scaling relations for locomotion in granular media

Publisher's Note: General scaling relations for locomotion in granular media [Phys. Rev. E 95 , 052901 (2017)]

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