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：通过热重分析预测环氧体系标记n = 0 / 1,2 DCH的使用寿命[罗马尼亚]

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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（BADGE 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％的减肥或5％的转化率时，就考虑了使用寿命。使用两种不同的方法处理实验结果：第一种方法与降解机理无关，第二种方法基于热降解动力学机理。使用Flynn-Wall-Ozawa方法测定的反应的活化能为148.51 kJ / mol。该值与使用基辛格方法获得的144.01 kJ / mol的值非常一致。从实验结果发现，该材料的最佳使用温度在100-140摄氏度的范围内，在该温度下相应的寿命范围是27到2633年。（C）2000 John Wiley＆Sons，Inc. [参考：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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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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1. Lifetime prediction of the epoxy system badge n=0/1,2 DCH by thermogravimetric analysis [Rumanian] [J] . Nunez L., Nunez MR., Villanueva M., Journal of Applied Polymer Science . 2000,第6期

机译：通过热重分析预测环氧体系标记n = 0 / 1,2 DCH的使用寿命[罗马尼亚]
2. Lifetime prediction of the epoxy system badge n=0/1,2 DCH by thermogravimetric analysis [Rumanian] [J] . Nunez L., Nunez MR., Villanueva M., Journal of Applied Polymer Science . 2000,第6期

机译：热重分析[rumanian]终身预测环氧系统徽章n = 0 / 1,2 DCH
3. Lifetime prediction of the epoxy system DGEBA (n=0)/1,2-DCH modified with an epoxy reactive diluent by thermogravimetric analysis [J] . Nunez L., Villanueva M., Nunez MR., Journal of Applied Polymer Science . 2003,第14期

机译：热重分析法预测用环氧反应性稀释剂改性的环氧体系DGEBA（n = 0）/ 1,2-DCH的寿命预测
4. Lifetime Prediction of Nano-Silica based Glass Fibre/Epoxy composite by Time Temperature Superposition Principle [C] . Abhijeet Anand, Poulami Baneriee, Rajesh Kumar Prusty National Conference on Processing and Characterization of Materials . 2018

机译：纳米二氧化硅基玻璃纤维/环氧复合材料的寿命预测通过时间温度叠加原理
5. Lifetime system reliability prediction for multiple structure types in a bridge network. [D] . Akgul, Ferhat. 2002

机译：桥梁网络中多种结构类型的终生系统可靠性预测。
6. Effects of UV for Cycloaliphatic Epoxy Resin via Thermokinetic Models Novel Calorimetric Technology and Thermogravimetric Analysis [O] . Bin Laiwang, Shang-Hao Liu, Yun-Ting Tsai, -1

机译：UV通过热动力学模型新型量热技术和热重分析对环脂族环氧树脂的影响
7. Effects of UV for Cycloaliphatic Epoxy Resin via Thermokinetic Models, Novel Calorimetric Technology, and Thermogravimetric Analysis [O] . Bin Laiwang, Shang-Hao Liu, Yun-Ting Tsai, 2018

机译：紫外线对脂环族环氧树脂的影响，通过热动力学模型，新型量热技术和热重分析
8. Thermogravimetric Analysis (TGA) of Various Epoxy Composite Formulations [R] . Stern, S. , Dierdorf, D. 2005

机译：各种环氧复合配方的热重分析（TGa）

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

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