Remotely and Sequentially Controlled Actuation of Electroactivated Carbon Nanotube/Shape Memory Polymer Composites

Remotely and Sequentially Controlled Actuation of Electroactivated Carbon Nanotube/Shape Memory Polymer Composites

4D printing technology is known as the combination of 3D printing technology and stimulus‐responsive materials. 4D printed conductive filler/shape memory polymer composites have tremendous potential in the development of remotely and sequentially controlled smart devices. This work focuses on the te...

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Bibliographic Details
Published in:Advanced materials technologies Vol. 4; no. 12
Main Authors: Liu, Yang, Zhang, Fenghua, Leng, Jinsong, Fu, Kun, Lu, X. Lucas, Wang, Liyun, Cotton, Chase, Sun, Baozhong, Gu, Bohong, Chou, Tsu‐Wei
Format: Journal Article
Language:English
Published: 01-12-2019
Subjects:
4D printing
carbon nanotubes
electroactivation
processing parameters
shape memory polymers
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Summary:4D printing technology is known as the combination of 3D printing technology and stimulus‐responsive materials. 4D printed conductive filler/shape memory polymer composites have tremendous potential in the development of remotely and sequentially controlled smart devices. This work focuses on the temperature dependent volume resistivity, Joule‐heating induced temperature distribution, and electroactivated shape memory behavior of 4D printed carbon nanotube (CNT) reinforced polylactic acid (PLA) under an applied DC voltage. The variation of volume resistivity of CNT/PLA composites with temperature can be attributed to matrix shrinkage and CNT contact resistance change. Enhanced electroactivated shape recovery property is demonstrated through the optimization of printing speed, layer thickness, and raster angle. Furthermore, compared to the 0° specimen, the 0°/90° specimen has higher degree of homogeneity in temperature distribution and faster recovery process. Finally, remotely and sequentially controlled shape memory behavior of a three‐pronged device is demonstrated. The above results will provide a knowledge base for future optimal design of selectively and sequentially controlled actuators. Remotely and sequentially controlled actuation of 4D printed carbon nanotube/shape memory polymer composites is demonstrated. The volume resistivity, Joule‐heating temperature increase and distribution, electroactivated shape memory behavior of 4D printed CNT/PLA composites are clearly influenced with the printing speed, layer thickness, and raster angle.
ISSN:2365-709X
2365-709X
DOI:10.1002/admt.201900600