Advanced Science (Jun 2024)

Earthworm‐Inspired Soft Skin Crawling Robot

  • Jonathan Tirado,
  • Cao Danh Do,
  • Joséphine Moisson de Vaux,
  • Jonas Jørgensen,
  • Ahmad Rafsanjani

DOI
https://doi.org/10.1002/advs.202400012
Journal volume & issue
Vol. 11, no. 23
pp. n/a – n/a

Abstract

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Abstract Earthworms are fascinating animals capable of crawling and burrowing through various terrains using peristaltic motion and the directional friction response of their epidermis. Anisotropic anchoring governed by tiny appendages on their skin called setae is known to enhance the earthworm's locomotion. A multi‐material fabrication technique is employed to produce soft skins with bristles inspired by the earthworm epidermis and their setae. The effect of bristles arranged in triangular and square grids at two spatial densities on the locomotion capability of a simple soft crawling robot comprised of an extending soft actuator covered by the soft skin is investigated experimentally. The results suggest that the presence of bristles results in a rostral to caudal friction ratio of µR/µC > 1 with some variations across bristle arrangements and applied elongations. Doubling the number of bristles increases the robot's speed by a factor of 1.78 for the triangular grid while it is less pronounced for the rectangular grid with a small factor of 1.06. Additionally, it is observed that increasing the actuation stroke for the skin with the high‐density triangular grid, from 15% to 30%, elevates the speed from 0.5 to 0.9 mm s−1, but further increases in stroke to 45% may compromise the durability of the actuators with less gains in speed (1 mm s−1). Finally, it is demonstrated that a crawling robot equipped with soft skin can traverse both a linear and a curved channel.

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