惰性气氛下氧化锌、fe2o3或znfe2o4与聚氯乙烯反应的热重质谱分析

B.-P. Zhang, Xiao-Yong Yan, K. Shibata, T. Uda, M. Tada, M. Hirasawa
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引用次数: 56

摘要

采用热重质谱联用技术(TG-MS)研究了聚氯乙烯在惰性气体气氛下与氧化锌、氧化铁和氧化铁在高温下的反应机理。在恒定升温速率为40 K/min的条件下进行实验,得到以下结果:在ZnO和PVC混合球团的情况下,PVC中的Cl在相对较低的温度下(约473 K)开始将ZnO中的Zn氯化为zncl2,而没有形成HCl。氯化后是残余未反应PVC的脱氯化氢,进一步降解为低阶碳氢化合物,最后在较高温度下蒸发氯化锌。另一方面,在ZnO-PVC双层球团中,ZnO层压实在PVC层的顶部,PVC分解伴随着HCl的形成开始于523 K左右,这与纯PVC在没有氧化物的情况下的热分解相似。在这种双层样品中,锌的氯化反应是不利的。在fe2o3 -PVC混合物中,脱氯化氢发生在513 ~ 673 K的温度范围内,与纯PVC分解的情况类似。随着温度的升高,脱氯后的PVC渣降解为低碳氢化合物,并由fe2o3逐步还原为金属铁。znfe2o4 -PVC体系的反应方案表现出介于ZnO-PVC体系和fe2o3 -PVC体系之间的中间性质。根据实验结果,探讨了氧化物与聚氯乙烯反应的动力学机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermogravimetric-Mass Spectrometric Analysis of the Reactions between Oxide (ZnO, Fe 2 O 3 or ZnFe 2 O 4 ) and Polyvinyl Chloride under Inert Atmosphere
The mechanisms of reactions are investigated between polyvinyl chloride and oxides such as ZnO, Fe 2 O 3 and ZnFe 2 O 4 under inert gas atmosphere at high temperature with combined thermogravimetry-mass spectrometry (TG-MS) technique. From the experiments under a constant heating rate of 40 K/min, the following results are obtained. In the case of mixture pellet of ZnO and PVC, the chlorination of Zn in ZnO to ZnCl 2 by Cl in PVC starts at a relatively low temperature about 473 K without the formation of HCl. The chlorination is followed by the de-hydrochlorination of residual un-reacted PVC, also by the further degradation to lower order hydrocarbons, and finally by the evaporation of ZnCl 2 at higher temperature. On the other hand, in the case of ZnO-PVC double layer pellet in which ZnO layer is compacted at the top of PVC layer, PVC decomposition accompanying HCl formation starts at about 523 K, which is similar to the thermal decomposition of pure PVC in the absence of the oxide. The chlorination of Zn is not favored in this case of double layer sample. In the case of Fe 2 O 3 -PVC mixture, the de-hydrochlorination takes place at the temperature range of 513 to 673 K, similarly with the case of the pure PVC decomposition. With increasing temperature, the degradation of de-hydrochlorinated PVC residue to lower hydrocarbons and the stepwise reduction from Fe 2 O 3 to metallic Fe takes, place after the de-hydrochlorination. The reaction scheme of ZnFe 2 O 4 -PVC system shows intermediate character between ZnO-PVC system and Fe 2 O 3 -PVC system. The kinetic mechanisms of the reaction between the oxides and PVC are examined on the basis of the experimental results.
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