用改进的科泽尼常数预测五束缎面织物的透气性

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES Functional Composites and Structures Pub Date : 2021-12-29 DOI:10.1088/2631-6331/ac46fa
Dongchul Park, Tianyu Yu, Soojeong Park, Do-Hoon Shin, Yun-Hae Kim
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引用次数: 1

摘要

渗透性不仅在流动模拟分析中是一个关键参数,在液体复合材料成型过程中也是如此。当液体树脂被注入到干燥的预成型件中时,浸渍的主要特征是渗透性。干燥预成型件的渗透性可以通过理论和实验方法获得。在渗透率的理论估计中,纤维排列以及织物类型和形式对各种类型预成型件的影响在计算中没有得到充分反映。因此,理论渗透率和实验渗透率之间存在差距。最近,实验测定作为获得准确渗透率值的一种手段,受到了相当大的关注;然而,它需要大量的试验。在本研究中,使用代表性的理论预测模型Gebart和Kozeny–Carman方程估计了Hexforce G0926 5HS(五束缎)碳织物预成型件的渗透率。除了Kozeny–Carman渗透率(使用文献中的Kozeny常数值)外,通过实验获得的Kozeney常数也用于获得修正的Kozeny-Carman渗透率。将所有三种计算的渗透性与织物制造商的参考值进行比较和验证。结果表明,在纤维体积分数为57%时,使用实验确定的Kozeny常数修改的Kozeny-Carman渗透率最接近参考值。此外,在纤维体积分数的40%-65%范围内,将预测渗透率与文献中的其他实验渗透率值进行了比较。我们发现,修正后的Kozeny–Carman渗透率再次接近文献值。最后,提出了一个优化拟合方程来代替Kozeny–Carman方程,用于预测Hexforce G0926 5HS碳织物在40%–65%纤维体积分数范围内的渗透率。
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Prediction of permeability of five-harness satin fabric by a modified Kozeny constant determined from experiments
Permeability is a critical parameter not only in flow simulation analysis but also in liquid composite molding process. When a liquid resin is infused into a dry preform, the impregnation is mainly characterized by the permeability. The permeability of a dry preform can be obtained through theoretical and experimental methods. In the theoretical estimation of permeability, the effects of fiber arrangement as well as fabric type and form for various types of preforms are not sufficiently reflected in the calculation. Thus, there is a gap between the theoretical and experimental permeability. Recently, experimental determination has been gaining considerable attention as a mean to obtain accurate permeability values; however, it requires a number of trials. In this study, the permeability of the Hexforce G0926 5HS (five-harness satin) carbon fabric preform is estimated using representative theoretical prediction models, the Gebart and Kozeny–Carman equations. In addition to the Kozeny–Carman permeability (using the Kozeny constant values from literature), the Kozeny constant obtained through experiments was used to obtain a modified Kozeny–Carman permeability. All three calculated permeabilities were compared and verified with the fabric manufacturer’s reference value. The results showed that the modified Kozeny–Carman permeability using the experimentally determined Kozeny constant was closest to the reference value at 57% fiber volume fraction. Further, the predicted permeability was compared with other experimental permeability values from literature over the 40%–65% range of fiber volume fraction. We found that the modified Kozeny–Carman permeability once again came closest to the literature values. Finally, an optimized fitting equation was proposed to replace the Kozeny–Carman equation for predicting the permeability of Hexforce G0926 5HS carbon fabric over the 40%–65% fiber volume fraction range.
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来源期刊
Functional Composites and Structures
Functional Composites and Structures Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
10.70%
发文量
33
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