湿热环境下环氧树脂的吸水性和性能演变

Guijun Xian, Yanzhao Niu, Xiao Qi, Jingwei Tian, Chenggao Li, Qingrui Yue, Rui Guo
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引用次数: 0

摘要

吸水引起的树脂基体结构和性能变化是影响土木工程中使用的纤维增强聚合物复合材料长期耐久性的关键因素之一。本研究通过在 40、60 和 80 °C 的去离子水中浸泡 135 天,对环氧树脂的水扩散和结构变化进行了实验研究。通过吸水、热、机械和微观结构分析测试来评估其长期性能变化。结果发现,环氧树脂的吸水性遵循两阶段模型,包括最初的菲克扩散反应和随后的弛豫反应。长期湿热暴露导致环氧树脂结构发生变化,使其机械性能和玻璃化转变温度分别显著下降 8%-30%和 21%。树脂塑化和水解是导致热性能和机械性能下降的关键因素。实验证明,干燥后除去结合水,塑化效应是可逆的。根据阿伦尼乌斯方程,预测了两种使用环境下弯曲强度的长期寿命,为应用提供了指导。抗折强度在初始暴露 2000 天时出现明显下降,随后达到 69.6% 的稳定强度保持率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Water absorption and property evolution of epoxy resin under hygrothermal environment
Changes in structure and properties of resin matrix caused by water absorption is one of the key factors affecting the long-term durability of fiber reinforced polymer composites used in civil engineering. In the present study, the water diffusion and structural change in an epoxy resin were investigated experimentally through immersion in deionized water at 40, 60 and 80 °C for 135 days. Water absorption, thermal, mechanical and microstructure analysis tests were conducted to evaluate the long-term property evolution. It was found that the water absorption of epoxy resin followed a two-stage model, including an initial Fick's diffusion response and a subsequent relaxation response. Long-term hygrothermal exposure brought about the structural change of epoxy resin, which led to the significant degradation up to 8%–30% in the mechanical properties and 21% in glass transition temperature, respectively. The resin plasticization and hydrolysis was the key factors for the degradation of thermal and mechanical properties. It was proved that the plasticization effect was reversible with the remove of bonding water after the drying. Based on the Arrhenius equation, the long-term life of flexural strength in two service environments were predicted to provide the application guideline. The significant degradation of flexural strength was occurred at the initial exposure of 2000 days and then reached to the stable strength retention of 69.6%.
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