Liquid Metal-Conductive Thermoplastic Elastomer Integration for Low-Voltage Stiffness Tuning
- Authors
- Rich, Steven; Jang, Sung-Hwan; Park, Yong-Lae; Majidi, Carmel
- Issue Date
- Dec-2017
- Publisher
- JOHN WILEY & SONS INC
- Keywords
- conductive elastomer; EGaIn; rigidity tuning; soft robotics; stiffness tuning
- Citation
- Advanced Materials Technologies, v.2, no.12, pp.1 - 6
- Indexed
- SCIE
SCOPUS
- Journal Title
- Advanced Materials Technologies
- Volume
- 2
- Number
- 12
- Start Page
- 1
- End Page
- 6
- URI
- https://scholarworks.bwise.kr/erica/handle/2021.sw.erica/11556
- DOI
- 10.1002/admt.201700179
- ISSN
- 2365-709X
- Abstract
- An electrically responsive composite is introduced that exhibits muscle-like changes in elastic stiffness (≈1–10 MPa) when stimulated with moderate voltages (5–20 V). The stiffness-tuning element contains an embedded layer of conductive thermoplastic elastomer (cTPE), composed of a propylene–ethylene copolymer and a percolating network of carbon black. Two opposite surfaces of the cTPE layer are coated with a ≈20 µm thin film eutectic gallium–indium (EGaIn) liquid metal alloy. When a voltage is applied to these EGaIn electrodes, electric current passes through the cTPE. This causes internal Joule heating, which induces a phase transition that changes the composite from its stiff state (E = 10.4 MPa) to its compliant state (E = 0.7 MPa). Differential scanning calorimetry is performed to show that this state change is governed by a solid–liquid transition. Voltage-dependent activation times are demonstrated that can be reduced to below 2 s and show the ability of the composite to recover its original shape after large strains. To illustrate its applicability in robotics, the composite is incorporated into an underactuated robotic finger, providing it with two different bending modes. The ability to use the composite as a moldable stiffness-tuning splint is also demonstrated. © 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim
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