可再加工双马来酰亚胺热固性材料的设计与评估：增强功能性和可持续性兼容性

IF 5.2 Q1 POLYMER SCIENCE

ACS Macro Letters Pub Date : 2024-09-16 DOI:10.1021/acsmacrolett.4c00545

Van-Kien Hoang, Kyosun Ku, Hyeonuk Yeo

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引用次数: 0

摘要

双马来酰亚胺（BMI）树脂是一种高性能热固性树脂，因其卓越的耐热性和物理性能而主要用于航空航天领域。然而，对它们日益增长的需求导致了大量不环保的废弃物。为了解决这个问题，我们的研究提出了一种可再加工的 BMI 系统，该系统使用了一种新合成的 BMI 玻璃基三聚体 (BMIV)，其官能团可形成共价适应网络 (CAN)。为了增强其性能，我们设计了一种在刚性杆分子中引入两个酯基的对称 BMI 作为 CAN 组件。在使用各种光谱技术确认其结构后，BMIV 与芳香族二胺通过额外的偶氮-迈克尔反应进行偶联，从而获得固化树脂。随后，对性能最佳的热稳定优化热固性材料的机械性能和再加工行为进行了评估，并详细报告了拓扑重排的证据、机理和活化能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Design and Evaluation of a Reprocessable Bismaleimide Thermoset: Enhancing Functionality and Sustainability Compatibility

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Design and Evaluation of a Reprocessable Bismaleimide Thermoset: Enhancing Functionality and Sustainability Compatibility

Bismaleimide (BMI) resins are high-performance thermosets that are primarily used in aerospace because of their exceptional heat resistance and physical properties. However, their growing demand has led to significant environmentally unfriendly waste. To address this, our research proposes a reprocessable BMI system using a newly synthesized BMI vitrimer (BMIV) with functional groups that form covalent adaptable networks (CANs). To enhance the properties, a symmetrical BMI with two ester groups introduced into the rigid rod molecule was designed as a CAN component. After confirming the structure using various spectroscopic techniques, BMIV was coupled with aromatic diamines via an additional aza-Michael reaction to obtain the cured resins. Subsequently, the mechanical properties and reprocessing behavior of the thermally stable and optimized thermosetting material with the best performance were evaluated, and the evidence, mechanism, and activation energy of the topology rearrangement are reported in detail.

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来源期刊

ACS Macro Letters 化学-

CiteScore

10.40

自引率

3.40%

发文量

209

审稿时长

1 months

期刊介绍： ACS Macro Letters publishes research in all areas of contemporary soft matter science in which macromolecules play a key role, including nanotechnology, self-assembly, supramolecular chemistry, biomaterials, energy generation and storage, and renewable/sustainable materials. Submissions to ACS Macro Letters should justify clearly the rapid disclosure of the key elements of the study. The scope of the journal includes high-impact research of broad interest in all areas of polymer science and engineering, including cross-disciplinary research that interfaces with polymer science. With the launch of ACS Macro Letters, all Communications that were formerly published in Macromolecules and Biomacromolecules will be published as Letters in ACS Macro Letters.