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科技工作者之家 2018-10-18
《复合材料学报》优先在线发表论文。
摘 要:通过在CNTs表面进行功能化修饰,改善CNTs与聚偏氟乙烯(Polyvinylidene Fluoride,PVDF)的分散性及界面结合程度,从而获得优异的力学性能和电学性能,提高其在传感器、致动器和储能方面的应用性能。采用原位水热合成法,在CNTs表面修饰磁性Fe3O4纳米粒子,然后将Fe3O4-CNTs加入PVDF中,采用流延工艺制备出Fe3O4-CNTs/PVDF复合薄膜。采用SEM、TEM、XRD和DSC研究了Fe3O4-CNTs/PVDF复合薄膜的结构和结晶行为,采用DMA、宽带介电谱测试系统和交流击穿场强测试系统研究了Fe3O4-CNTs对复合材料力学性能、介电性能及击穿场强的影响。结果表明,由于Fe3O4-CNTs的引入,PVDF形成了β晶相,同时抑制了Fe3O4-CNTs/PVDF复合材料的结晶度的下降;提高了弹性模量,抑制了阻尼特性下降;提高了介电常数,击穿场强,抑制了介电损耗升高。
关键词:聚偏氟乙烯;Fe3O4-CNTs;晶体结构;介电性能;击穿场强
Abstract: CNTs were modified by Fe3O4, the dispersibility of CNTs in polyvinylidene fluoride (PVDF) and interfacial adhesion were improved so as to achieve high mechanical properties and electrical properties, better application for sensor, actuator and energy storage with functional performance. Fe3O4 modified CNTs were prepared by in situ hydrothermal synthesis method, and Fe3O4-CNTs/PVDF composite were prepared by the casting process. The structure and crystallization behavior of Fe3O4-CNTs/PVDF composite films were studied by SEM, TEM, XRD and DSC. The mechanical properties, the dielectric properties and breakdown field strength of Fe3O4-CNTs/PVDF composite were studied by DMA and the broadband dielectric spectrometer. The results show that, due to adding Fe3O4-CNTs, the PVDF β crystal phase is observed, the decrease of crystallinity of the Fe3O4-CNTs/PVDF composite is inhibited. The storage modulus is increased, the decrease of damping property is inhibited. The dielectric constant is increased, the increase of dielectric loss is inhibited. The breakdown field strength is increased visibly.
Keywords: polyvinylidene fluoride; Fe3O4-CNTs; crystal structure; dielectric properties; breakdown field strength
作者:安宁丽等,西安理工大学 印刷包装与数字媒体学院,西安
通讯作者:安宁丽,西安理工大学 印刷包装与数字媒体学院,西安
全文详见中国知网学术期刊优先数字出版。
来源:CSCM_OFFICE 中国复合材料学会
原文链接:http://mp.weixin.qq.com/s?__biz=MjM5MTA2NTk1Nw==&mid=2654407758&idx=3&sn=7d0ceec09bf5ec3b26f36b2508974908&scene=0#wechat_redirect
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