Issue 45, 2022

Multiple configuration transitions of soft actuators under single external stimulus

Abstract

Soft actuators have a wide range of applications in medical instruments, soft robotics, 3D electronics, and deployable structures, where configuration transitions are crucial for their function realization. However, most soft actuators can only morph from the initial configuration directly to the final configuration under a single external stimulus. Herein, we report a novel soft actuator by 3D printing parallel strips with crescent cross-sections onto a thin PDMS film. Multiple configuration transitions are observed when the soft actuator swells in ethyl acetate. Four factors, i.e., the geometric asymmetry of the strips, the fabrication-induced heterogeneity of the film, the differential swelling ratios of the strips and the film, and the geometric parameters of the actuator, are demonstrated to synergistically regulate the multiple configuration transitions of the actuator. Particularly, the underlying mechanisms for the configuration transitions are systematically investigated through experiments and theoretical analysis, and verified via finite element simulation. Benefitting from the multiple configuration transitions, the grasp-release-re-grab function of the actuator is demonstrated under a single stimulus. This work contributes to fundamental understanding of the morphing behaviors and the novel design of soft actuators.

Graphical abstract: Multiple configuration transitions of soft actuators under single external stimulus

Supplementary files

Article information

Article type
Paper
Submitted
05 Aug 2022
Accepted
18 Oct 2022
First published
21 Oct 2022

Soft Matter, 2022,18, 8633-8640

Multiple configuration transitions of soft actuators under single external stimulus

Y. Cao, X. Feng, S. Wang, Q. Li, X. Li, H. Li, W. Hong, H. Duan and P. Lv, Soft Matter, 2022, 18, 8633 DOI: 10.1039/D2SM01058E

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