| Literature DB >> 29334140 |
Lee Belding1, Bilge Baytekin2, Hasan Tarik Baytekin2, Philipp Rothemund1,3,4, Mohit S Verma1, Alex Nemiroski1, Dan Sameoto1,5, Bartosz A Grzybowski2, George M Whitesides1,6,4.
Abstract
This article describes a new principle for designing soft or 'semisoft' pneumatic actuators: SLiT (for SLit-in-Tube) actuators. Inflating an elastomeric balloon, when enclosed by an external shell (a material with higher Young's modulus) containing slits of different directions and lengths, produces a variety of motions, including bending, twisting, contraction, and elongation. The requisite pressure for actuation depends on the length of the slits, and this dependence allows sequential actuation by controlling the applied pressure. Different actuators can also be controlled using external "sliders" that act as reprogrammable "on-off" switches. A pneumatic arm and a walker constructed from SLiT actuators demonstrate their ease of fabrication and the range of motions they can achieve.Keywords: external shells; pneumatic actuators; pneumatic artificial muscles; semisoft; sequential actuation; soft robotics
Year: 2018 PMID: 29334140 DOI: 10.1002/adma.201704446
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849