Untethered magneto-thermal flexible actuators for soft robotics

Soft robots are devices that can perform delicate and sensitive movements. Such robots have flexible actuators activated by external triggers. Magnetic soft actuators, triggered by external magnetic fields, can be operated remotely and wirelessly. We present new materials and processes to fabricate...

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Main Authors: Keneth, Ela Sachyani, Lieberman, Rama, Pahima, Avishag, Varma, Vijaykumar B., Sharma, Vinay, Yuan, Chao, Ge, Qi, Ramanujan, Raju V., Magdassi, Shlomo
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2024
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Online Access:https://hdl.handle.net/10356/173346
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1733462024-01-29T04:28:25Z Untethered magneto-thermal flexible actuators for soft robotics Keneth, Ela Sachyani Lieberman, Rama Pahima, Avishag Varma, Vijaykumar B. Sharma, Vinay Yuan, Chao Ge, Qi Ramanujan, Raju V. Magdassi, Shlomo School of Materials Science and Engineering Singapore-HUJ Alliance for Research and Enterprise (SHARE) Engineering::Materials Soft Actuators Soft Robotics Soft robots are devices that can perform delicate and sensitive movements. Such robots have flexible actuators activated by external triggers. Magnetic soft actuators, triggered by external magnetic fields, can be operated remotely and wirelessly. We present new materials and processes to fabricate 2D and 3D magneto-thermal actuators (MTA) by a printing process. Unlike most earlier reports, our actuators are activated by an alternating magnetic field. The formed bilayer actuators which combine a flexible polymer layer with a magnetic layer can heat up under an alternating magnetic field (AMF) which triggers the actuation and shape morphing. The actuation is based on the difference in the thermal expansion coefficient of the two layers. The achieved curvatures are very large, in the range of 0.08–0.1 mm-1. The effect of various actuation parameters was studied, providing a good agreement of the experimental results with the modeling predictions. A 2D gripper and a “flower” were activated remotely without wiring or patterning of the magnetic layer. A 3D-printed MTA, obtained by combining stereolithography-based 3D printing with spray deposition, was also developed. Actuators with complex 3D structures formed by 3D printed process, resulting in objects that undergo remotely activated shape morphing, as demonstrated for a drone-like wing, performing a controlled tilting movement. The excellent actuation of these magneto-thermal actuators suggests their promise in soft robotics, for which wireless and remote activation present an unmet need. National Research Foundation (NRF) We thank the Israeli Ministry of Defense, the Israeli Ministry of Science and Technology, and National Research Foundation, Prime Minister’s Office, Singapore under its Campus of Research Excellence and Technological Enterprise (CREATE) programme, for the financial support. 2024-01-29T04:28:25Z 2024-01-29T04:28:25Z 2023 Journal Article Keneth, E. S., Lieberman, R., Pahima, A., Varma, V. B., Sharma, V., Yuan, C., Ge, Q., Ramanujan, R. V. & Magdassi, S. (2023). Untethered magneto-thermal flexible actuators for soft robotics. Sensors and Actuators A: Physical, 363, 114683-. https://dx.doi.org/10.1016/j.sna.2023.114683 0924-4247 https://hdl.handle.net/10356/173346 10.1016/j.sna.2023.114683 2-s2.0-85173178266 363 114683 en Sensors and Actuators A: Physical © 2023 Elsevier B.V. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Materials
Soft Actuators
Soft Robotics
spellingShingle Engineering::Materials
Soft Actuators
Soft Robotics
Keneth, Ela Sachyani
Lieberman, Rama
Pahima, Avishag
Varma, Vijaykumar B.
Sharma, Vinay
Yuan, Chao
Ge, Qi
Ramanujan, Raju V.
Magdassi, Shlomo
Untethered magneto-thermal flexible actuators for soft robotics
description Soft robots are devices that can perform delicate and sensitive movements. Such robots have flexible actuators activated by external triggers. Magnetic soft actuators, triggered by external magnetic fields, can be operated remotely and wirelessly. We present new materials and processes to fabricate 2D and 3D magneto-thermal actuators (MTA) by a printing process. Unlike most earlier reports, our actuators are activated by an alternating magnetic field. The formed bilayer actuators which combine a flexible polymer layer with a magnetic layer can heat up under an alternating magnetic field (AMF) which triggers the actuation and shape morphing. The actuation is based on the difference in the thermal expansion coefficient of the two layers. The achieved curvatures are very large, in the range of 0.08–0.1 mm-1. The effect of various actuation parameters was studied, providing a good agreement of the experimental results with the modeling predictions. A 2D gripper and a “flower” were activated remotely without wiring or patterning of the magnetic layer. A 3D-printed MTA, obtained by combining stereolithography-based 3D printing with spray deposition, was also developed. Actuators with complex 3D structures formed by 3D printed process, resulting in objects that undergo remotely activated shape morphing, as demonstrated for a drone-like wing, performing a controlled tilting movement. The excellent actuation of these magneto-thermal actuators suggests their promise in soft robotics, for which wireless and remote activation present an unmet need.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Keneth, Ela Sachyani
Lieberman, Rama
Pahima, Avishag
Varma, Vijaykumar B.
Sharma, Vinay
Yuan, Chao
Ge, Qi
Ramanujan, Raju V.
Magdassi, Shlomo
format Article
author Keneth, Ela Sachyani
Lieberman, Rama
Pahima, Avishag
Varma, Vijaykumar B.
Sharma, Vinay
Yuan, Chao
Ge, Qi
Ramanujan, Raju V.
Magdassi, Shlomo
author_sort Keneth, Ela Sachyani
title Untethered magneto-thermal flexible actuators for soft robotics
title_short Untethered magneto-thermal flexible actuators for soft robotics
title_full Untethered magneto-thermal flexible actuators for soft robotics
title_fullStr Untethered magneto-thermal flexible actuators for soft robotics
title_full_unstemmed Untethered magneto-thermal flexible actuators for soft robotics
title_sort untethered magneto-thermal flexible actuators for soft robotics
publishDate 2024
url https://hdl.handle.net/10356/173346
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