Electron beam and UV cationic polymerization of glycidyl ethers - PART I: Reaction of monofunctional phenyl glycidyl ether

Mascioni M.; Ghosh N.N.; Sands J.M.; Palmese G.R.

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Electron beam and UV cationic polymerization of glycidyl ethers - PART I: Reaction of monofunctional phenyl glycidyl ether

机译：缩水甘油醚的电子束和UV阳离子聚合-第一部分：单官能苯基缩水甘油醚的反应

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Investigations of electron beam (e-beam) and ultra violet (UV)-induced cationic polymerization kinetics of a mono-functional epoxy system, phenyl glycidyl ether (PGE), were conducted using real time in situ near infrared (NIR) spectroscopy. Effects of processing variables such as temperature and dose rate on initiation and propagation rate constants have been assessed. The experimental results and results from a simple mathematical model developed to predict the reaction behavior under continuous irradiation showed very good agreement. This work provides a basis for investigating the cure behavior of more complex and industrially relevant crosslinking epoxy systems where diffusion limitations play an important role as discussed in PART II.

机译：电子束（电子束）和紫外线（UV）诱导的单官能环氧体系苯基缩水甘油醚（PGE）的阳离子聚合动力学的研究是使用实时原位近红外光谱进行的。已经评估了加工变量（例如温度和剂量率）对引发和传播速率常数的影响。实验结果和开发用于预测连续照射下反应行为的简单数学模型的结果显示出很好的一致性。这项工作为研究更复杂和工业相关的交联环氧体系的固化行为提供了基础，在该体系中，扩散限制起着重要作用，如第二部分所述。

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《Journal of Applied Polymer Science》 |2013年第1期|共8页
作者
Mascioni M.; Ghosh N.N.; Sands J.M.; Palmese G.R.;
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正文语种 eng
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kinetics; photopolymerization; ring-opening polymerization; spectroscopy;

机译：动力学;光聚合;开环聚合;光谱学;

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1. Electron beam and UV cationic polymerization of glycidyl ethers - PART I: Reaction of monofunctional phenyl glycidyl ether [J] . Mascioni M., Ghosh N.N., Sands J.M., Journal of Applied Polymer Science . 2013,第1期

机译：缩水甘油醚的电子束和UV阳离子聚合-第一部分：单官能苯基缩水甘油醚的反应
2. Electron beam and UV cationic polymerization of glycidyl ethers PART II: Reaction of diglycidyl ether of bisphenol A [J] . Mascioni M., Ghosh N.N., Sands J.M., Journal of Applied Polymer Science . 2013,第1期

机译：缩水甘油醚的电子束和UV阳离子聚合第二部分：双酚A的二缩水甘油醚的反应
3. Electron beam and UV cationic polymerization of glycidyl ethers PART II: Reaction of diglycidyl ether of bisphenol A [J] . Mascioni M., Ghosh N.N., Sands J.M., Journal of Applied Polymer Science . 2013,第1期

机译：缩水甘油醚的电子束和UV阳离子聚合第二部分：双酚A的二缩水甘油醚的反应
4. CURE KINETICS OF CATIONIC POLYMERIZATION OF PHENYL GLYCIDYL ETHER (PGE) AND TACTIX123 USING CD-1012 AS PHOTOINITIATOR [C] . Reza Dabestani, Ilia N. Ivanov 2001 a Materials and Processes Odyssey . 2001

机译：以CD-1012为光引发剂的苯丙缩水甘油醚（PGE）和TACTIX123阳离子聚合的固化动力学。
5. Cationic polymerization of glycidyl ethers and furans: Improved electron beam and UV cured epoxy networks [D] . Lee, Jihean 2007

机译：缩水甘油醚和呋喃的阳离子聚合：改进的电子束和UV固化的环氧网络
6. Examining the Influence of Anion Nucleophilicity on the Polymerisation Initiation Mechanism of Phenyl Glycidyl Ether [O] . Fiona C. Binks, Gabriel Cavalli, Michael Henningsen, 2019

机译：研究阴离子亲核性对苯基缩水甘油醚聚合引发机理的影响
7. Cationic polymerization of glycidyl phenyl ether initiated by various arylsulfonium salts as new thermal latent cationic initiators [O] . Osamu Shimomura, Ikuyoshi Tomita, Takeshi Endo 1998

机译：各种芳基锍盐作为新的热潜阳离子引发剂引发的糖基苯基醚的阳离子聚合

Electron beam and UV cationic polymerization of glycidyl ethers - PART I: Reaction of monofunctional phenyl glycidyl ether

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