Electrically controllable twisted-coiled artificial muscle actuators using surface-modified polyester fibers

Authors
Park, JungwooYoo, Ji WangSeo, Hee WonLee, YoungkwanSuhr, JonghwanMoon, HyungpilKoo, Ja ChoonChoi, Hyouk RyeolHunt, RobertKim, Kwang JinKim, Soo HyunNam, Jae-Do
Issue Date
2017-03
Publisher
IOP PUBLISHING LTD
Citation
SMART MATERIALS AND STRUCTURES, v.26, no.3
Abstract
As a new class of thermally activated actuators based on polymeric fibers, we investigated polyethylene terephthalate (PET) yarns for the development of a twisted-coiled polymer fiber actuator (TCA). The PET yarn TCA exhibited the maximum linear actuation up to 8.9% by external heating at above the glass transition temperature, 160 degrees C-180 degrees C. The payload of the actuator was successfully correlated with the preload and training-load conditions by an empirical equation. Furthermore, the PET-based TCA was electrically driven by Joule heating after the PET surface was metallization with silver. For the fast and precise control of PET yarn TCA, electroless silver plating was conducted to form electrical conductive layers on the PET fiber surface. The silver plated PET-based TCA was tested by Joule heating and the tensile actuation was increased up to 12.1% (6V) due to the enhanced surface hardness and slippage of PET fibers. Overall, silver plating of the polymeric yarn provided a fast actuation speed and enhanced actuation performance of the TCA actuator by Joule heating, providing a great potential for being used in artificial muscle for biomimetic machines including robots, industrial actuators and powered exoskeletons.
Keywords
POLYSTYRENE BEAD CORES; SHAPE-MEMORY ALLOYS; SHELL; POLYSTYRENE BEAD CORES; SHAPE-MEMORY ALLOYS; SHELL; twisted-coiled fiber actuator (TCA); electroless silver plating; Joule heating; artificial muscle
ISSN
0964-1726
URI
https://pubs.kist.re.kr/handle/201004/122992
DOI
10.1088/1361-665X/aa5323
Appears in Collections:
KIST Article > 2017
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