执行机构
材料科学
复合材料
化学工程
自愈水凝胶
制浆造纸工业
高分子化学
工程类
电气工程
作者
Jiuming Xiong,Ranran Wu,Yufang Hu,Zhiyong Guo,Sui Wang,Jie Mao
标识
DOI:10.1016/j.compstruct.2024.118580
摘要
• The delignified wood was used as the skeleton to prepare the anisotropic bilayer composite actuators. • The hierarchical structural characteristics of the hydrogel actuator and its applications in intelligent grippers and intelligent fluids were discussed. • It enjoys a long service life and is capable of achieving thermosensitive driving even after being immersed in deionized water for 14 months. Hydrogels are important in smart drive materials because of their stretchability and biocompatibility. However, challenges in their mechanical properties and preparation process as actuators hinder their potential applications. In this work, a double-layer composite hydrogel actuator was proposed. The actuator consists of two layers of materials, namely delignification wood and agarose (AG)/poly(N-isopropylacrylamide) (PNIPAM) composite hydrogel, named as double-layer wood-based hydrogel (BWH). In BWH, due to the large amount of hydroxyl groups on the surface of delignification wood, abundant hydrogen bonds can be formed with the hydrogel layer to ensure the close adhesion of the two layers and achieve stable synergy. At the same time, the delignification wood can give the overall stable structure and predictable bending direction. In addition, BWH has excellent anti-swelling properties, which is due to the double network design of the hydrogel layer and the anti-swelling properties of the delignification wood skeleton itself. Based on the property of BWH sensitive to temperature deformation, its applications in the field of intelligent grasping and fluid valve were studied. This work provides a simple method for the preparation of response actuators and the idea of mechanical enhancement and adjustable deformation direction.
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