On the thermooxidative degradation of polyethyleneterephtalate

ICSD'98. Proceedings of the 1998 IEEE 6th International Conference on Conduction and Breakdown in Solid Dielectrics (Cat. No.98CH36132) Pub Date : 1998-06-22 DOI:10.1109/ICSD.1998.709280

M. Chipara, P. Notingher, J. Reyes, M. Chipara

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Abstract

The thermal degradation in air of PET within the glass transition range is a complex phenomenon. According to mechanical data it might be concluded that the thermooxidative degradation of PET is described by a single first order process. Due to the thickness of the sample and as the degradation temperatures were above T/sub A/, the thermooxidative degradation process is homogeneous. Thermal analysis have revealed the presence of a weak liquid-liquid transition. Both the liquid-liquid transition and the glass transition depends on degradation time and temperature. From the effect of the thermooxidative degradation on T/sub G/, it is possible to conclude that at low degradation temperatures the polymer crosslinks. At 150/spl deg/C, a transition from crosslinking to chain scissions at large degradation times (above 500 h) is noticed. Hence T/sub c/ depends on the degradation time and temperature. Dc electrical conduction measurements have revealed two competing first order relaxation processes, ascribed to crystalline and amorphous domains. Further studies are in course, in order to elucidate this behaviour.

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热氧化降解聚乙二甲酸乙酯的研究

PET在玻璃化转变范围内的空气热降解是一个复杂的现象。根据力学数据可以得出结论，PET的热氧化降解是一个单一级过程。由于样品的厚度和降解温度在T/sub /以上，热氧化降解过程是均匀的。热分析显示存在弱的液-液转变。液-液转变和玻璃化转变都取决于降解时间和温度。从热氧化降解对T/sub G/的影响来看，可以得出在低降解温度下聚合物交联的结论。在150/spl度/C时，注意到在大降解时间(超过500小时)从交联到链断裂的转变。因此T/sub / c/取决于降解时间和温度。直流电传导测量揭示了两个相互竞争的一阶弛豫过程，归于晶体和非晶域。为了阐明这种行为，进一步的研究正在进行中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ICSD'98. Proceedings of the 1998 IEEE 6th International Conference on Conduction and Breakdown in Solid Dielectrics (Cat. No.98CH36132)

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