Lifetime prediction of the epoxy system badge n=0/1,2 DCH by thermogravimetric analysis [Rumanian]

Nunez L.; Nunez MR.; Villanueva M.; Fraga F.

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Lifetime prediction of the epoxy system badge n=0/1,2 DCH by thermogravimetric analysis [Rumanian]

机译：热重分析[rumanian]终身预测环氧系统徽章n = 0 / 1,2 DCH

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Lifetime of the system diglycidyl ether of bisphenol A (BADGE n = 0)/1,2-diamine cyclohexane (DCH) was predicted by thermogravimetric analysis. Lifetime was considered when either 5% weight loss or 5% conversion was reached. Experimental results were treated using two different methods: The first method was independent of the degradation mechanism and the second was based on the thermodegradation kinetic mechanism. The activation energy of the reaction, determined using the Flynn-Wall-Ozawa method, was 148.51 kJ/mol. This value is in a good agreement with that of 144.01 kJ/mol obtained using Kissinger's method. From the experimental results, it was found that the optimum temperature of service for this material is in the range of 100-140 degrees C, at which the corresponding lifetime range is from 27 to 2633 years. (C) 2000 John Wiley & Sons, Inc. [References: 17]

机译：通过热重分析预测了双酚A（徽章N = 0）/ 1,2-二胺环己烷（DCH）的系统二缩水甘油醚的寿命。当达到5％减重或5％转化时，考虑了寿命。使用两种不同的方法处理实验结果：第一种方法与降解机制无关，第二种方法基于散热动力学机制。使用Flynn-Wall-ozawa方法测定的反应的活化能量为148.51 kJ / mol。该值与使用基辛格的方法获得的144.01 kJ / mol良好。从实验结果来看，发现该材料的最佳服务温度为100-140℃，相应的寿命范围为27至2633岁。（c）2000 John Wiley＆Sons，Inc。[参考文献：17]

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《Journal of Applied Polymer Science》 |2000年第6期|共6页
作者
Nunez L.; Nunez MR.; Villanueva M.; Fraga F.;
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Univ Santiago Res Grp TERBIPROMAT Dept Fis Aplicada E-15706 Santiago Spain .;

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原文格式 PDF
正文语种 rum
中图分类高分子化学（高聚物）;高分子化合物产品;有机化学;
关键词
Lifetime; Thermogravimetric analysis; Epoxy resins; Thermal-analysis; Temperature;

机译：寿命;热重分析;环氧树脂;热分析;温度;

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Lifetime prediction of the epoxy system badge n=0/1,2 DCH by thermogravimetric analysis [Rumanian]

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