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4D printing of liquid crystal elastomer composites with continuous fiber reinforcement

Huan Jiang, Christopher Chung, Martin L. Dunn () and Kai Yu ()
Additional contact information
Huan Jiang: University of Colorado Denver
Christopher Chung: University of Colorado Denver
Martin L. Dunn: University of Colorado Denver
Kai Yu: University of Colorado Denver

Nature Communications, 2024, vol. 15, issue 1, 1-12

Abstract: Abstract Multifunctional composites have been continuously developed for a myriad of applications with remarkable adaptability to external stimuli and dynamic responsiveness. This study introduces a 4D printing method for liquid crystal elastomer (LCE) composites with continuous fibers and unveils their multifunctional actuation and exciting mechanical responses. During the printing process, the relative motion between the continuous fiber and LCE resin generates shear force to align mesogens and enable the monodomain state of the matrix materials. The printed composite lamina exhibits reversible folding deformations that are programmable by controlling printing parameters. With the incorporation of fiber reinforcement, the LCE composites not only demonstrate high actuation forces but also improved energy absorption and protection capabilities. Diverse shape-changing configurations of 4D composite structures can be achieved by tuning the printing pathway. Moreover, the incorporation of conductive fibers into the LCE matrix enables electrically induced shape morphing in the printed composites. Overall, this cost-effective 4D printing method is poised to serve as an accessible and influential approach when designing diverse applications of LCE composites, particularly in the realms of soft robotics, wearable electronics, artificial muscles, and beyond.

Date: 2024
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DOI: 10.1038/s41467-024-52716-5

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