University of Wollongong
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Wet-Spun Biofiber for Torsional Artificial Muscles

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posted on 2024-11-16, 03:56 authored by Azadehsadat Mirabedini, Shazed Md Aziz, Geoffrey SpinksGeoffrey Spinks, Javad ForoughiJavad Foroughi
The demands for new types of artificial muscles continue to grow and novel approaches are being enabled by the advent of new materials and novel fabrication strategies. Self-powered actuators have attracted significant attention due to their ability to be driven by elements in the ambient environment such as moisture. In this study, we demonstrate the use of twisted and coiled wet-spun hygroscopic chitosan fibers to achieve a novel torsional artificial muscle. The coiled fibers exhibited significant torsional actuation where the free end of the coiled fiber rotated up to 1155 degrees per mm of coil length when hydrated. This value is 96%, 362%, and 2210% higher than twisted graphene fiber, carbon nanotube torsional actuators, and coiled nylon muscles, respectively. A model based on a single helix was used to evaluate the torsional actuation behavior of these coiled chitosan fibers.

Funding

Development of hybrid carbon nanotube yarn and processing methods to create 3D smart materials and devices

Australian Research Council

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ARC Centre of Excellence for Electromaterials Science

Australian Research Council

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History

Citation

Mirabedini, A., Aziz, S., Spinks, G. M. & Foroughi, J. (2017). Wet-Spun Biofiber for Torsional Artificial Muscles. Soft Robotics, 4 (4), 421-430.

Journal title

Soft Robotics

Volume

4

Issue

4

Pagination

421-430

Language

English

RIS ID

118216

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