具有闭环控制的神经支配、自感应液晶弹性体致动器

Innervated, Self-Sensing Liquid Crystal Elastomer Actuators with Closed Loop Control.

作者信息

Kotikian Arda, Morales Javier M, Lu Aric, Mueller Jochen, Davidson Zoey S, Boley J William, Lewis Jennifer A

机构信息

John A. Paulson School of Engineering and Applied Sciences and Wyss Institute for Biologically Inspired Engineering, Harvard University, Cambridge, MA, 02138, USA.

Mechanical Engineering Department, Boston University, Boston, MA, 02215, USA.

出版信息

Adv Mater. 2021 Jul;33(27):e2101814. doi: 10.1002/adma.202101814. Epub 2021 May 31.

DOI:10.1002/adma.202101814

PMID:34057260

Abstract

The programmable assembly of innervated LCE actuators (iLCEs) with prescribed contractile actuation, self-sensing, and closed loop control via core-shell 3D printing is reported. This extrusion-based direct ink writing method enables coaxial filamentary features composed of pure LM core surrounded by an LCE shell, whose director is aligned along the print path. Specifically, the thermal response of the iLCE fiber-type actuators is programmed, measured, and modeled during Joule heating, including quantifying the concomitant changes in fiber length and resistance that arise during simultaneous heating and self-sensing. Due to their reversible, high-energy actuation and their resistive feedback, it is also demonstrated that iLCEs can be regulated with closed loop control even when perturbed with large bias loads. Finally, iLCE architectures capable of programmed, self-sensing 3D shape change with closed loop control are fabricated.

摘要

报道了通过核壳3D打印实现具有规定收缩驱动、自感应和闭环控制的神经支配液晶弹性体致动器（iLCE）的可编程组装。这种基于挤出的直接墨水书写方法能够实现由纯低熔点金属（LM）芯被液晶弹性体（LCE）壳包围组成的同轴丝状特征，其指向矢沿打印路径排列。具体而言，在焦耳加热过程中对iLCE纤维型致动器的热响应进行了编程、测量和建模，包括量化在同时加热和自感应过程中纤维长度和电阻的伴随变化。由于其可逆的、高能量驱动以及电阻反馈，还证明了即使在受到大偏置负载干扰时，iLCE也可以通过闭环控制进行调节。最后，制造出了能够通过闭环控制进行可编程、自感应3D形状变化的iLCE架构。

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具有闭环控制的神经支配、自感应液晶弹性体致动器

Innervated, Self-Sensing Liquid Crystal Elastomer Actuators with Closed Loop Control.

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