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Proceedings Paper

A new bistable electroactive polymer for prolonged cycle lifetime of refreshable Braille displays
Author(s): Zhi Ren; Xiaofan Niu; Dustin Chen; Wei Hu; Qibing Pei
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Paper Abstract

ABSTRACT: Bistable electroactive polymers (BSEP) amalgamating electrically induced large-strain actuation and shape memory effect present a unique opportunity for refreshable Braille displays. A new BSEP material with long-chain crosslinkers to achieve prolonged cycle lifetime of refreshable Braille displays is reported here. The modulus of the BSEP material decreases by more than three orders of magnitude from a rigid, plastic state to a rubbery state when heated above the polymer’s glass transition temperature. In its rubbery state, the polymer film can be electrically actuated to buckle convexly when a high voltage is applied across a circular active area. Modifying the concentration of long-chain crosslinkers in the polymer allows not only for fine-tuning of the polymer’s glass transition temperature and elasticity in the rubbery state, but also enhancement of the actuation stability. For a raised height of 0.4 mm by a Braille dot with a 1.3 mm diameter, actuation can be repeated over 2000 cycles at 70°C in the rubbery state. The actuated dome shape can be fixed by cooling the polymer below the glass transition temperature. This refreshable rigid-to-rigid actuation simultaneously provides large-strain actuation and large force support. Devices capable of displaying Braille characters over a page-size area consisting of 324 Braille cells have been fabricated.

Paper Details

Date Published: 8 March 2014
PDF: 9 pages
Proc. SPIE 9056, Electroactive Polymer Actuators and Devices (EAPAD) 2014, 905621 (8 March 2014); doi: 10.1117/12.2044978
Show Author Affiliations
Zhi Ren, Univ. of California, Los Angeles (United States)
Xiaofan Niu, Univ. of California, Los Angeles (United States)
Dustin Chen, Univ. of California, Los Angeles (United States)
Wei Hu, Univ. of California, Los Angeles (United States)
Qibing Pei, Univ. of California, Los Angeles (United States)


Published in SPIE Proceedings Vol. 9056:
Electroactive Polymer Actuators and Devices (EAPAD) 2014
Yoseph Bar-Cohen, Editor(s)

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