A blister-like soft nano-textured thermo-pneumatic actuator as an artificial muscle

Seongpil An; Dong Jin Kang; Alexander L. Yarin

doi:10.1039/c8nr04181d

A blister-like soft nano-textured thermo-pneumatic actuator as an artificial muscle

Seongpil An, Dong Jin Kang, Alexander L. Yarin

College of Engineering

Research output: Contribution to journal › Article › peer-review

21 Citations (Scopus)

Abstract

Here, model blister-like soft thermo-pneumatic artificial muscles with the embedded nanofibers impregnated with ethanol are developed. The muscles are essentially blister-like thermo-pneumatic soft actuators (BTSAs), which deflect in response to heat supplied to their bottom. The resulting deflections are on the scale of 1 cm, and the BTSAs are operational for several cycles. They are able to raise the artificial rigid scales, spines or fur/thin fibers attached to them emulating animals such as pangolin, hedgehog and porcupine. They are also capable of removing the stickiest adhesive tapes attached to them, and thus hold great promise for biomedical applications where artificially grown skin patches should be removed from an underlying substrate without being damaged. The theory of the BTSA proposed in this work is in reasonable agreement with the acquired experimental data.

Original language	English
Pages (from-to)	16591-16600
Number of pages	10
Journal	Nanoscale
Volume	10
Issue number	35
DOIs	https://doi.org/10.1039/c8nr04181d
Publication status	Published - 2018 Sept 21

ASJC Scopus subject areas

Materials Science(all)

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10.1039/c8nr04181d

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title = "A blister-like soft nano-textured thermo-pneumatic actuator as an artificial muscle",

abstract = "Here, model blister-like soft thermo-pneumatic artificial muscles with the embedded nanofibers impregnated with ethanol are developed. The muscles are essentially blister-like thermo-pneumatic soft actuators (BTSAs), which deflect in response to heat supplied to their bottom. The resulting deflections are on the scale of 1 cm, and the BTSAs are operational for several cycles. They are able to raise the artificial rigid scales, spines or fur/thin fibers attached to them emulating animals such as pangolin, hedgehog and porcupine. They are also capable of removing the stickiest adhesive tapes attached to them, and thus hold great promise for biomedical applications where artificially grown skin patches should be removed from an underlying substrate without being damaged. The theory of the BTSA proposed in this work is in reasonable agreement with the acquired experimental data.",

author = "Seongpil An and Kang, {Dong Jin} and Yarin, {Alexander L.}",

note = "Funding Information: The generous support of NASA through the Grant No. NNX17AF33G is greatly appreciated. Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2018.",

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AU - An, Seongpil

AU - Kang, Dong Jin

AU - Yarin, Alexander L.

N1 - Funding Information: The generous support of NASA through the Grant No. NNX17AF33G is greatly appreciated. Publisher Copyright: © The Royal Society of Chemistry 2018.

PY - 2018/9/21

Y1 - 2018/9/21

N2 - Here, model blister-like soft thermo-pneumatic artificial muscles with the embedded nanofibers impregnated with ethanol are developed. The muscles are essentially blister-like thermo-pneumatic soft actuators (BTSAs), which deflect in response to heat supplied to their bottom. The resulting deflections are on the scale of 1 cm, and the BTSAs are operational for several cycles. They are able to raise the artificial rigid scales, spines or fur/thin fibers attached to them emulating animals such as pangolin, hedgehog and porcupine. They are also capable of removing the stickiest adhesive tapes attached to them, and thus hold great promise for biomedical applications where artificially grown skin patches should be removed from an underlying substrate without being damaged. The theory of the BTSA proposed in this work is in reasonable agreement with the acquired experimental data.

AB - Here, model blister-like soft thermo-pneumatic artificial muscles with the embedded nanofibers impregnated with ethanol are developed. The muscles are essentially blister-like thermo-pneumatic soft actuators (BTSAs), which deflect in response to heat supplied to their bottom. The resulting deflections are on the scale of 1 cm, and the BTSAs are operational for several cycles. They are able to raise the artificial rigid scales, spines or fur/thin fibers attached to them emulating animals such as pangolin, hedgehog and porcupine. They are also capable of removing the stickiest adhesive tapes attached to them, and thus hold great promise for biomedical applications where artificially grown skin patches should be removed from an underlying substrate without being damaged. The theory of the BTSA proposed in this work is in reasonable agreement with the acquired experimental data.

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A blister-like soft nano-textured thermo-pneumatic actuator as an artificial muscle

Abstract

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