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Double Helix Twisted and Coiled Soft Actuator from Spandex and Nylon
Author(s) -
Kim Kihyeon,
Cho Kyeong Ho,
Jung Ho Sang,
Yang Sang Yul,
Kim Youngeun,
Park Jae Hyeong,
Jang Hoyoung,
Nam JaeDo,
Koo Ja Choon,
Moon Hyungpil,
Suk Ji Won,
Rodrigue Hugo,
Choi Hyouk Ryeol
Publication year - 2018
Publication title -
advanced engineering materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.938
H-Index - 114
eISSN - 1527-2648
pISSN - 1438-1656
DOI - 10.1002/adem.201800536
Subject(s) - materials science , actuator , joule heating , composite material , polymer , strain (injury) , fabrication , soft materials , helix (gastropod) , nanotechnology , computer science , pathology , artificial intelligence , snail , medicine , biology , ecology , alternative medicine
This paper introduces a fabrication method and properties of newly developed Twisted and Coiled soft Actuator (TCA) from nylon and spandex. The TCA, a thermally driven actuator, is one of the promising soft actuators that shows considerable strain compared to the others. Typically, TCA is fabricated from single polymer fiber such as the spandex and nylon. However, TCA from each material shows some limits. The spandex TCA (STCA) shows siginificant strain more than 45%. However, since the spandex is non‐conductive material, the STCA requires additional heat source such as heat gun. On the other hand, since the nylon TCA (NTCA) is fabricated from silver‐coated nylon, it is capable of Joule heating. However, the strain is considerably smaller than that of the STCA. Newly developed TCA, Double helix TCA (DTCA), is composed of both of them. As a result, the DTCA inherits the properties of the STCA and the NTCA. It is capable of Joule heating showing high strain over 40%. Since, DTCA is very soft, light, and cheap, it has various applications in the field of robots including artificial limbs.