首页 /研究 /Shape-memory polymer nanocomposites with a 3D conductive network for bidirectional actuation and locomotion application
LOCOMOTION

Shape-memory polymer nanocomposites with a 3D conductive network for bidirectional actuation and locomotion application

Qingyu Peng, Hongqiu Wei, Yuyang Qin, Zaishan Lin, Xu Zhao, Fan Xu, Jinsong Leng, Xiaodong He, Anyuan Cao, Yibin Li

发表年份
2016
引用次数
94

摘要

Electrical stimulation of shape-memory polymers (SMPs) has many advantages over thermal methods; creating an efficient conductive path through the bulk polymers is essential for developing high performance electroactive systems. Here, we show that a three-dimensional (3D) porous carbon nanotube sponge can serve as a built-in integral conductive network to provide internal, homogeneous, in situ Joule heating for shape-memory polymers, thus significantly improving the mechanical and thermal behavior of SMPs. As a result, the 3D nanocomposites show a fast response and produce large exerting forces (with a maximum flexural stress of 14.6 MPa) during shape recovery. We further studied the construction of a double-layer composite structure for bidirectional actuation, in which the shape change is dominated by the temperature-dependent exerting force from the top and bottom layer, alternately. An inchworm-type robot is demonstrated whose locomotion is realized by such bidirectional shape memory. Our large stroke shape-memory nanocomposites have promising applications in many areas including artificial muscles and bionic robots.

关键词

Shape-memory polymerMaterials scienceJoule heatingShape-memory alloyNanocompositeElectrical conductorCarbon nanotubeComposite numberComposite materialLayer (electronics)

相关论文

查看 LOCOMOTION 分类全部论文