Study on mechanical properties and curing properties of shear‐thickening gel toughened epoxy resin

IF 3.2 4区工程技术 Q2 ENGINEERING, CHEMICAL Polymer Engineering and Science Pub Date : 2024-08-16 DOI:10.1002/pen.26890

Jingtao Ma, Haolijie Wen, Kaixuan Wang, Ziming Xiong, Fengguo Yan, Zhongwei Zhang, Kejing Yu

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Abstract

The shear‐thickening gel (STG) is introduced as a toughening agent into the epoxy resin (EP) to improve the toughness and impact resistance of the EP without significantly increasing its viscosity. By utilizing the unique BO dynamic bonds present in STG, the EP/STG composite exhibits remarkable toughness at low strain rates due to the gradual disentanglement of molecular chains. Conversely, at high strain rates, the disentanglement of molecular chains is hindered, resulting in a pronounced impact hardening effect and overall superior impact resistance. Our findings reveal that when STG is added at a concentration of 15%, the EP/STG composite material attains its peak mechanical performance. Specifically, it demonstrates a tensile strength of 31.8 MPa and a modulus of elasticity of 550.6 MPa. Furthermore, compared to pure EP, the EP/STG composite experiences an increase in elongation at break and impact strength by 40% and 8.1%, respectively. Additionally, the introduction of hydroxyl and B atoms in STG promotes the ring‐opening reaction of epoxy groups during the curing process of the EP, thus accelerating the curing reaction rate. These insights provide a solid theoretical foundation for optimizing the performance of EPs in engineering applications.Highlights

The STG was actively utilized to enhance the toughness of EP.

The modified EP system exhibits significant improvements in toughness and impact resistance without a notable increase in viscosity.

The promotional effect of STG on the curing of EP systems was revealed through curing kinetics analysis and rheological analysis.

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剪切增稠凝胶增韧环氧树脂的机械性能和固化性能研究

在环氧树脂（EP）中引入剪切增稠凝胶（STG）作为增韧剂，可在不显著增加其粘度的情况下提高 EP 的韧性和抗冲击性。通过利用 STG 中独特的 BO 动态键，EP/STG 复合材料在低应变速率下由于分子链的逐渐脱开而表现出显著的韧性。相反，在高应变速率下，分子链的解缠会受到阻碍，从而产生明显的冲击硬化效应和整体优异的抗冲击性。我们的研究结果表明，当 STG 的添加浓度为 15%时，EP/STG 复合材料的机械性能达到峰值。具体来说，它的拉伸强度达到 31.8 兆帕，弹性模量为 550.6 兆帕。此外，与纯 EP 相比，EP/STG 复合材料的断裂伸长率和冲击强度分别提高了 40% 和 8.1%。此外，STG 中羟基和 B 原子的引入促进了 EP 固化过程中环氧基团的开环反应，从而加快了固化反应速度。这些见解为优化 EP 在工程应用中的性能提供了坚实的理论基础。改性后的 EP 系统在韧性和抗冲击性方面都有显著改善，而粘度却没有明显增加。通过固化动力学分析和流变学分析，揭示了 STG 对 EP 系统固化的促进作用。

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来源期刊

Polymer Engineering and Science 工程技术-高分子科学

CiteScore

5.40

自引率

18.80%

发文量

329

审稿时长

3.7 months

期刊介绍： For more than 30 years, Polymer Engineering & Science has been one of the most highly regarded journals in the field, serving as a forum for authors of treatises on the cutting edge of polymer science and technology. The importance of PE&S is underscored by the frequent rate at which its articles are cited, especially by other publications - literally thousand of times a year. Engineers, researchers, technicians, and academicians worldwide are looking to PE&S for the valuable information they need. There are special issues compiled by distinguished guest editors. These contain proceedings of symposia on such diverse topics as polyblends, mechanics of plastics and polymer welding.