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OALib Journal期刊
ISSN: 2333-9721
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PAN基碳纤维形成过程中热氧稳定化气氛对纤维径向结构演变的关联性研究
DOI: 10.3724/SP.J.1105.2012.12063, PP. 1326-1334
Keywords: 聚丙烯腈,气氛,径向结构,热氧稳定化,碳纤维
Abstract:
采用红外光谱、X射线能谱、激光显微共焦拉曼光谱、X射线衍射光谱和电子自旋共振等多种表征手段,定量探讨了热氧稳定化气氛中氧气浓度与聚丙烯腈纤维的径向结构转变以及与碳纤维结构和性能的关联.结果表明,随着氧气浓度的增大,氧气自皮层逐渐扩散到纤维内部,热氧稳定化纤维的径向结构趋于均质化.当热氧稳定化过程氧体积浓度(Vo)由20.38%增加到21.15%时,热氧稳定化纤维的皮芯结构逐渐减小,环化程度增幅显著,该过程对碳纤维皮部类石墨结构的形成具有促进作用,所得碳纤维的孔隙率减小,拉伸强度增大.当Vo大于21.34%时,热氧稳定化纤维的皮芯结构基本消失,但氧化程度过高且环化程度增幅缓慢,抑制了碳纤维皮部类石墨结构的形成,所得碳纤维的孔隙率增大,拉伸强度降低.控制Vo为21.15%~21.34%时,热氧稳定化纤维的环化和径向化学结构的均质化程度均得以提高,所得碳纤维在保持皮部较高石墨程度的同时促进了芯部类石墨结构的形成,此时拉伸强度最高,比在常规空气气氛条件下制备的碳纤维提高了12.22%.
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