Electroactive shape-memory effects of hydro-epoxy/carbon black composites

被引:0
作者
Kun Wei
Guangming Zhu
Yusheng Tang
Ximin Li
机构
[1] School of Science,
[2] Northwestern Polytechnical University,undefined
[3] The First Aircraft Institute of AVIC,undefined
来源
Polymer Journal | 2013年 / 45卷
关键词
electrical properties; epoxy resin; polymer-matrix composites; thermomechanical;
D O I
暂无
中图分类号
学科分类号
摘要
Electroactive shape-memory hydro-epoxy/carbon black composites are investigated in this study. The thermomechanical and the shape-memory properties of these composites are characterized using dynamic mechanical analysis and U-type shape-memory tests. These results indicate that the glass transition temperature (Tg) of the composites decreases first and then increases slightly as the carbon black content increases. The storage modulus at high temperatures increases as the carbon black content increases. The percolation threshold of the electroactive shape-memory hydro-epoxy composite is lower than that for many other composites. Because of the low percolation threshold, the electroactive shape-memory hydro-epoxy composite exhibits excellent shape-memory property. The sample filled with 1.9 wt% carbon black can recover nearly 100% of its original shape in only a few minutes under an applied voltage of 200 V.
引用
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页码:671 / 675
页数:4
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