Probing the Effect of Prepolymerization on the Structure and Properties of Phthalonitrile Resin/Basalt Fiber Composites

IF 2.7 3区化学 Q2 POLYMER SCIENCE

Journal of Applied Polymer Science Pub Date : 2025-03-06 DOI:10.1002/app.56976

Shuai Zhang, Ao Yang, Pan He, Yi Lu, Guangzhao Li, Jiajia Ye, Yumin Huang, Rui Han

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Abstract

Prepolymerization is a common procedure in the practical application of high-performance composites based on thermosetting resins, but very few reports studied the effects of prepolymerization on the curing reactivity, the chemical structure, and the properties of the final composites. Therefore, in this work, a phthalonitrile resin with a benzoxazine moiety was selected for prepolymerization and for preparing composites with basalt fiber cloth. It was revealed that the molecular weight increased slightly after prepolymerization, consuming a small number of functional groups and releasing groups with catalytic activity. Consequently, the curing reactivity of the prepolymers increased and then decreased; the toughness and strength increased, but the thermal properties increased and then decreased after prepolymerization. All of the variations resulted from the combined function of generated active groups and decreased molecular mobility; that is, more active groups such as phenolic hydroxyls were released after prepolymerization, but the molecular weight was increased, and functional groups were consumed, which led to difficulty in the motion of the resin melt and the crosslinking reaction.

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预聚合对邻苯二腈树脂/玄武岩纤维复合材料结构和性能影响的探讨

预聚合是热固性树脂高性能复合材料实际应用中常见的一种方法，但研究预聚合对固化反应性、化学结构和最终复合材料性能影响的报道很少。因此，本文选择了一种含有苯并恶嗪基团的邻苯二腈树脂进行预聚合，制备了玄武岩纤维布复合材料。预聚合后分子量略有增加，消耗少量官能团，释放具有催化活性的基团。因此，预聚物的固化反应性先升高后降低；预聚合后，材料的韧性和强度均有所提高，但热性能先升高后降低。所有这些变化都是由于生成的活性基团和降低的分子迁移率的共同作用所致；即预聚合后释放出较多的酚羟基等活性基团，但分子量增加，官能团被消耗，导致树脂熔体运动困难，交联反应困难。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Applied Polymer Science 化学-高分子科学

CiteScore

5.70

自引率

10.00%

发文量

1280

审稿时长

2.7 months

期刊介绍： The Journal of Applied Polymer Science is the largest peer-reviewed publication in polymers, #3 by total citations, and features results with real-world impact on membranes, polysaccharides, and much more.