通过 3D 打印制造的光激活聚合物双层致动器。

Photoactivated Polymeric Bilayer Actuators Fabricated via 3D Printing.

机构信息

Department of Chemistry , Drexel University , 32 South 32nd Street , Philadelphia Pennsylvania 19104 , United States.

Department of Mechanical Engineering and Mechanics , Drexel University , 3141 Chestnut Street , Philadelphia Pennsylvania 19104 , United States.

出版信息

ACS Appl Mater Interfaces. 2018 Aug 15;10(32):27308-27315. doi: 10.1021/acsami.8b08503. Epub 2018 Aug 3.

DOI:10.1021/acsami.8b08503

PMID:30036469

Abstract

4D printing is an emerging additive manufacturing technology that combines the precision of 3D printing with the versatility of smart materials. 4D printed objects can change their shape over time with the application of a stimulus (i.e., heat, light, moisture). Light driven smart materials are attractive because light is wireless, remote, and can induce a rapid shape change. Herein, we present a method for fabricating polymeric bilayer actuators via 3D printing which reversibly change their shape upon exposure to light. The photoactive layer consists of a poly(siloxane) containing pendant azobenzene groups. Two different photoactive polymers were synthesized, and the photomechanical effect displayed by the bilayers was evaluated. These bilayers exhibit rapid actuation with full cycles completed within seconds, and photo generated stresses ranging from 1.03 to 1.70 MPa.

摘要

4D 打印是一种新兴的增材制造技术，它将 3D 打印的精确性与智能材料的多功能性结合在一起。4D 打印的物体可以随着刺激（例如热、光、湿度）的应用而随时间改变形状。光驱动智能材料具有吸引力，因为光具有无线、远程的特点，并且可以引起快速的形状变化。在此，我们提出了一种通过 3D 打印制造聚合物双层致动器的方法，该致动器在暴露于光时会可逆地改变其形状。光活性层由含有悬垂偶氮苯基团的聚硅氧烷组成。合成了两种不同的光活性聚合物，并评估了双层的光机械效应。这些双层结构具有快速的致动效果，在几秒钟内即可完成完整的循环，并且产生的光致应力范围为 1.03 至 1.70 MPa。

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通过 3D 打印制造的光激活聚合物双层致动器。

Photoactivated Polymeric Bilayer Actuators Fabricated via 3D Printing.

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