2020
DOI: 10.3390/act9020025
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A Modeling of Twisted and Coiled Polymer Artificial Muscles Based on Elastic Rod Theory

Abstract: Twisted and coiled polymer (TCP) can generate large stroke and output high power density, making it a promising artificial muscle. Thermally induced muscles fabricated from nylon or other polymer fibers can be used in robotic, biomedical devices, and energy-harvesting equipment. While fibers with different shapes and materials have different optimal process parameters. Understanding mechanisms of TCP forming and the impact of process parameters is critical to explore stronger, more powerful artificial muscles.… Show more

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Cited by 23 publications
(25 citation statements)
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“…The average modeling error is less than 2% when different fabrication load is applied. The influence of different parameters has been discussed in our previous work [31]. Similarly, according to our previous work [31], the force response F of the TCP is relative to temperature T and can be expressed as:…”
Section: B Thermo-mechanical Modelmentioning
confidence: 93%
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“…The average modeling error is less than 2% when different fabrication load is applied. The influence of different parameters has been discussed in our previous work [31]. Similarly, according to our previous work [31], the force response F of the TCP is relative to temperature T and can be expressed as:…”
Section: B Thermo-mechanical Modelmentioning
confidence: 93%
“…In our previous work [31], an elastic-rod-theory-based model was established for explaining the quantitative relationship between tensile actuation and fabrication load. We adopted the theory of elastic bar and identified the critical load and twist of coils forming as key factors, considering these fabrication parameters when deriving the actuation equations of TCP muscles.…”
Section: B Thermo-mechanical Modelmentioning
confidence: 99%
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“…Resins [65], functionalized PCL [66], functionalized PLA [67], polyurethan, wax [48], DiAPLEX [68], other polymers [69,70] Magnetization Elastomers [71][72][73], resin [74], SMP (DiAPLEX [68], other [74]), low melting point alloy (LMPA) (Cerrolow 117) [75], magnet [75,76], magnetic particles [68,[71][72][73][74] Liquid Crystal (LC) LCE [77][78][79][80][81][82][83][84], LCN [85][86][87] Dielectric Elastomer Actuator (DEA) Elastomers [88], LCE [89], polyethylene [90] Twisted and Coiled Polymer (TCP) Nylon 6,6 [91][92][93], polyethylene [91] Ionic Polymer Metal Composite (IPMC)…”
Section: Shape Memory Polymer (Smp)mentioning
confidence: 99%