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Assembly-Dependent Interfacial Property of Carbon Nanotube Fibers with Epoxy and Its Enhancement via Generalized Surface Sizing

In building up composite structures using carbon nanotube (CNT) fibers, the fiber-to-matrix interfacial shear strength (IFSS) is one of the most important issues. Originating from the assembly characteristics of CNT fiber, the IFSS strongly depends on the fiber's twisting level and densification level. Furthermore, there are rich ways to modify the fiber surface and thus enhance the IFSS, including the physical and chemical modification on fiber surface, the infiltration of matrix resin into CNT fiber, and the introduction of silane coupling agent. A new feature differing from carbon fibers is that all these treatments either change the fiber's surface structure or form a several-hundreds-nm-thick interphase inside rather than around the fiber. These "generalized" treatments obviously extend the common concept of surface sizing and can be used for various forms of CNT assembly structures.

preprint2015arXivOpen access
Chaoshuai LeiJingna ZhaoJingyun ZouChunyang JiangMin LiXiaohua ZhangZuoguang ZhangQingwen Li
cond-mat.mtrl-sci
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Chaoshuai LeiJingna ZhaoJingyun ZouChunyang JiangMin LiXiaohua ZhangZuoguang ZhangQingwen Li

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