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Thermal Characterization of Heat Resistant UV Cure Compositions by Estimated Arrhenius Parameters

机译：通过估算的Arrhenius参数对耐热UV固化组合物进行热表征

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Optical fibers, cables, and sensors are often intended for use in applications where the coatings, inks, matrix, and/or buffer resins are subjected to high temperatures and other harsh environments. It is important for application engineers to have good estimates of thermooxidative and physicochemical durability of such UV cure compositions. It is difficult to mimic these conditions and determine the functional long-term behavior of fiber appliances in the coatings development lab. However, there are a number of methods available to estimate the thermal and durability characteristics of coatings intended for high temperature use. These methods result in plots and estimates of Arrhenius-type parameters. This paper will illustrate and discuss such estimates of Arrhenius parameters for selected heat resistant coating candidates. One convenient and effective analysis is the Flynn-Wall-Ozawa isoconversion method to give true "molar" estimates of E_a.

机译：光纤，电缆和传感器通常用于涂料，油墨，基体和/或缓冲树脂要经受高温和其他恶劣环境的应用。对于应用工程师而言，重要的是要对此类UV固化组合物的热氧化和物理化学耐久性进行良好的估算。在涂层开发实验室中很难模拟这些条件并确定光纤设备的功能性长期行为。但是，有许多方法可用来估算打算用于高温用途的涂料的热和耐久性。这些方法得出Arrhenius型参数的图和估计值。本文将说明和讨论所选耐热涂层候选材料的Arrhenius参数估算值。一种方便有效的分析方法是Flynn-Wall-Ozawa等转换方法，它可以给出E_a的真实“摩尔”估计。

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来源
《55th IWCS/Focus~TM Conference》|2006年|484-489|共6页
会议地点 ProvidenceRI(US)
作者
Ed Murphy; Jack Kelly;
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作者单位

Fiber Optic Materials Group, DSM Desotech Inc.Elgin, Illinois 60120;

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会议组织
原文格式 PDF
正文语种 eng
中图分类金属导电材料;通信电缆;
关键词
UV curable; urethane acrylate; heat resistant; glass optical fibers; optical fiber cables; optical fiber sensors; thermal characterization; arrhenius parameters; thermal stability; thermal decomposition, isoconversion analysis, Flynn-Wall-Ozawa method;

机译：紫外线固化；氨基甲酸酯丙烯酸酯耐热玻璃光纤；光纤电缆；光纤传感器；热表征阿累尼乌斯参数;热稳定性;热分解，等转换分析，Flynn-Wall-Ozawa方法;

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1. Improved Heat Resistant UV-Cure Compositions For Optical Fiber Applications [J] . Edward J. Murphy, Wendell W. Cattron, Jack J.Kelly RadTech report . 2009,第2期

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3. Preparation and thermal stability of heat-resistant phenolic resin system constructed by multiple heat-resistant compositions containing boron and silicon [J] . Wang Fengyi, Huang Zhixiong, Zhang Guangwu, Theoretical and Experimental Plant Physiology . 2017,第4期

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4. Thermal Characterization of Heat Resistant UV Cure Compositions by Estimated Arrhenius Parameters [C] . Ed Murphy, Jack Kelly, International Wire amp, IWCS/Focus~TM Conference . 2006

机译：估计Arhenius参数耐热紫外线固化组合物的热表征
5. Inverse methods to estimate anthocyanin degradation kinetic parameters in cherry pomace during non-isothermal heating. [D] . Greiby, Ibrahim. 2013

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8. Cure Characterization in Diamine-Cured Epoxy and Polyimide by UV ReflectionSpectroscopy [R] . Yu, J. W., Sung, C. S. 1995

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Thermal Characterization of Heat Resistant UV Cure Compositions by Estimated Arrhenius Parameters

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