2002
DOI: 10.1002/app.10267
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Study on the volumetric expansion of benzoxazine curing with different catalysts

Abstract: A systematic investigation on the volumetric expansion of four benzoxazine systems, which are benzoxazine, benzoxazine/tertiary amine, benzoxazine/organic acid, and benzoxazine/epoxy resin/tertiary amine, was done. By using gravitometric and dilatometric methods, etc., studies on volumetric shrinkage, isothermal cure shrinkage, and density versus cure time plots were done. The cure reactions of these benzoxazines were carried out at 140 and 160°C. The results show that all benzoxazine systems exhibit apparent … Show more

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Cited by 95 publications
(58 citation statements)
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“…PBOZ possess typical properties of traditional phenolic resins, such as the excellent thermal properties and flame retardance 5. They also have unique characteristics like near‐zero shrinkage or expansion during polymerization6–8 and low water absorption,9 which overcome the flaws of traditional phenol resins. Therefore, PBOZ has had a lot of attentions from aerospace and electronic industries.…”
Section: Introductionmentioning
confidence: 99%
“…PBOZ possess typical properties of traditional phenolic resins, such as the excellent thermal properties and flame retardance 5. They also have unique characteristics like near‐zero shrinkage or expansion during polymerization6–8 and low water absorption,9 which overcome the flaws of traditional phenol resins. Therefore, PBOZ has had a lot of attentions from aerospace and electronic industries.…”
Section: Introductionmentioning
confidence: 99%
“…One of the foremost solutions utilized to tackle this issue is usage of catalysts or latent initiators to assist the ROP reaction. A wide variety of catalysts and initiators including boron trifluoride, PCl 5 , mineral acids organic acids, aliphatic acids, promoters such as PTSM (methyl‐ p ‐toluenesulfonate), and bifunctional catalysts like lithium iodide have been reported for their efficacy in assisting benzoxazine polymerization. A downside of this strategy is catalyst entrapment in the resin which in turn drastically alters the properties of polymer, accounting for problems such as lower thermal stability, formation of brittle materials, lower sustainability, and less potential usage in the application domains where complete exclusion of catalysts or initiators is desired.…”
Section: Introductionmentioning
confidence: 99%
“…Thus, the use of catalysts aiming at reducing the polymerization temperature has also been investigated . However, these complex systems in which additional compounds must be added might not be fully beneficial from an economic nor practical standpoint since extra effort must be put on the processing and this could also affect the very desirable properties of the final product . On the contrary, it would certainly be advantageous if the monomeric benzoxazines themselves could be tailor‐made and chemically designed in such a manner to be able to polymerize at exact programed temperatures with high precision without affecting the final properties of the polybenzoxazines.…”
Section: Introductionmentioning
confidence: 99%