TG-FTIR Study of Degradation Mechanism and Pyrolysis Products of High Molecular Polyacrylonitrile with Different Oxidation Degree

Li Zhang; Zhiling Liu; Yongqiang Dai

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TG-FTIR Study of Degradation Mechanism and Pyrolysis Products of High Molecular Polyacrylonitrile with Different Oxidation Degree

机译：TG-FTIR研究不同氧化度高分子聚丙烯腈的降解机理及热解产物

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Thermal degradation of both high molecular polyacrylonitrile precursor fiber and pre-oxidation fibers with different extent of stabilization were studied in N2 atmospheres using thermogravimetric analysis coupled with Fourier transform Infrared analysis (TG-FTIR). Degradation mechanism and volatile products at various temperatures of each sample were studied. The results show that the fibers with higher stabilization were more stable. It is indicated that degradation process of fibers can be divided into three stages and most of the weight loss occurs at the second stage. The gaseous products such as H2O, NH3, HCN, CO and CO2 are formed, meanwhile, the amount of volatile products of fibers were closely related to stabilization of fibers.

机译：使用热重分析和傅里叶变换红外分析（TG-FTIR），在氮气气氛中研究了具有不同稳定程度的高分子聚丙烯腈前体纤维和预氧化纤维的热降解。研究了每种样品在不同温度下的降解机理和挥发性产物。结果表明，具有较高稳定性的纤维更稳定。结果表明，纤维的降解过程可分为三个阶段，大部分失重发生在第二阶段。形成了H2O，NH3，HCN，CO和CO2等气态产物，同时，纤维中挥发性产物的含量与纤维的稳定性密切相关。

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《Asian Journal of Chemistry: An International Quarterly Research Journal of Chemistry 》 |2013年第15期| 共6页
作者
Li Zhang; Zhiling Liu; Yongqiang Dai;
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正文语种 eng
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关键词
Polyacrylonitrile; Degradation; TG-FTIR; Extent of stabilization.;

机译：聚丙烯腈;降解;TG-FTIR;稳定度;

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机译：TG-FTIR研究不同氧化度高分子聚丙烯腈的降解机理及热解产物
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TG-FTIR Study of Degradation Mechanism and Pyrolysis Products of High Molecular Polyacrylonitrile with Different Oxidation Degree

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