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- Title
Elephant Trunk Inspired Multimodal Deformations and Movements of Soft Robotic Arms.
- Authors
Leanza, Sophie; Lu‐Yang, Juliana; Kaczmarski, Bartosz; Wu, Shuai; Kuhl, Ellen; Zhao, Ruike Renee
- Abstract
Elephant trunks are capable of complex, multimodal deformations, allowing them to perform task‐oriented high‐degree‐of‐freedom (DOF) movements pertinent to the field of soft actuators. Despite recent advances, most soft actuators can only achieve one or two deformation modes, limiting their motion range and applications. Inspired by the elephant trunk musculature, a liquid crystal elastomer (LCE)‐based multi‐fiber design strategy is proposed for soft robotic arms in which a discrete number of artificial muscle fibers can be selectively actuated, achieving multimodal deformations and transitions between modes for continuous movements. Through experiments, finite element analysis (FEA), and a theoretical model, the influence of LCE fiber design on the achievable deformations, movements, and reachability of trunk‐inspired robotic arms is studied. Fiber geometry is parametrically investigated for 2‐fiber robotic arms and the tilting and bending of these arms is characterized. A 3‐fiber robotic arm is additionally studied with a simplified fiber arrangement analogous to that of an actual elephant trunk. The remarkably broad range of deformations and the reachability of the arm are discussed, alongside transitions between deformation modes for functional movements. It is anticipated that this design and actuation strategy will serve as a robust method to realize high‐DOF soft actuators for various engineering applications.
- Subjects
SOFT robotics; SYNTHETIC fibers; SUBCLAVIAN artery; ELEPHANTS; FINITE element method; ROBOTICS; ARTIFICIAL muscles; IVORY; BIOLOGICALLY inspired computing
- Publication
Advanced Functional Materials, 2024, Vol 34, Issue 29, p1
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.202400396