Study on thermal expansion coefficient and absorbing properties of fiber reinforced resin-based absorbing composites

IF 5.3 Q2 MATERIALS SCIENCE, COMPOSITES Composites Part C Open Access Pub Date : 2024-03-04 DOI:10.1016/j.jcomc.2024.100449
By Zhuohui Zhou , Yanli Wang , Wanqi Zhao , Zhiyong Wang , Yan Zhao
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Abstract

In this paper, non-woven fabric and glass fiber fabric were used to prepare resin-based absorbing composite. The thermal expansion coefficient and the microwave absorbing properties of the absorbing composites with different glass fiber volume fraction were studied. The results show that the simulation results of the thermal expansion coefficient calculated by Schapery model are inconsistent with the experimental results, the metallographic results were studied to reveal that it is the added absorbent in the composite that partially replaced the resin at the interface between resin and fiber bundle causes the parameters of the material substituted in the Schapery model to be improper. A different simulation model was proposed to introduce a set of different parameters of the material to reduce the error between simulation and experiment results and the simulation results show that the error is reduced from a maximum of 53 % to a minimum of 3 %. Meanwhile the microwave absorbing properties show that the absorbing peaks of the composite materials move to low frequency with the increasing glass fiber volume fraction and the minimum reflection loss (RL) first increase and then decrease. The metallographic results show that the different distribution of absorbent in the composites within different reinforced fibers causes the movement of the absorbing peaks and the change of its minimum RL. Those research results lay a foundation for the further popularization and application of the absorbing composites.

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纤维增强树脂基吸水复合材料的热膨胀系数和吸水特性研究
本文采用无纺布和玻璃纤维织物制备树脂基吸波复合材料。研究了不同玻璃纤维体积分数的吸波复合材料的热膨胀系数和微波吸收性能。结果表明,Schapery 模型计算出的热膨胀系数模拟结果与实验结果不一致,研究金相结果发现,是复合材料中添加的吸波材料在树脂与纤维束界面处部分取代了树脂,导致 Schapery 模型中替代材料的参数不正确。为了减小模拟和实验结果之间的误差,我们提出了一种不同的模拟模型,引入一组不同的材料参数,模拟结果表明,误差从最大的 53% 减小到最小的 3%。同时,微波吸收特性表明,随着玻璃纤维体积分数的增加,复合材料的吸收峰向低频移动,最小反射损耗(RL)先增大后减小。金相结果表明,复合材料中不同增强纤维的吸波物质分布不同,导致了吸波峰值的移动及其最小反射损耗的变化。这些研究成果为吸波复合材料的进一步推广和应用奠定了基础。
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来源期刊
Composites Part C Open Access
Composites Part C Open Access Engineering-Mechanical Engineering
CiteScore
8.60
自引率
2.40%
发文量
96
审稿时长
55 days
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