亚马逊藤纤维增强环氧复合材料的弹道性能

Juliana dos Santos Carneiro da Cunha, L. Nascimento, U. O. Costa, A. B. S. Figueiredo, S. Monteiro
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引用次数: 0

摘要

天然纤维增强基聚合物复合材料在包括弹道防护在内的工程应用方面显示出巨大的潜力。然而,亚马逊地区充满了尚未得到充分研究的天然纤维,这些天然纤维可能具有比合成纤维更有吸引力的重要特性。本文提出了一种新型复合材料,该材料由弯纹杂交藤纤维(Heteropsis flexuosa)增强环氧树脂组成,可用于弹道装甲。采用。22 LR口径弹药对不同体积分数的titica vine纤维(TVF)复合材料板进行了弹道试验。通过结果,可以观察到,通过Weibull和ANOVA分析的统计验证,以及Tukey检验,在0到20 vol%的条件下,能量的吸收更大,但完整性损失相当大。另一方面,30%和40%的样品表现出更好的完整性。此外,纤维含量最高的样品的vl比体积分数为10%和20%的复合材料的vl要低。因此,TVF的体积分数越高,冲击能吸收能力越低。这种行为证实了弹道试验后复合材料断口的扫描电镜分析结果。对于TVF小于20 vol%的复合材料,观察到脆性断裂证据,吸收更多的冲击能量。另一方面,对于其他成分,主要是具有韧性断裂特征的复杂机制,负责吸收较少的能量,但仍然保持保护的完整性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ballistic performance of epoxy composites reinforced with Amazon titica vine fibers
Natural fiber-reinforced matrix polymer composites have shown great potential for engineering applications including ballistic protection. However, The Amazon region is full of natural fibers that have not yet been the fully studied and that might have important properties making them more attractive than synthetic fibers. This work presents a novel composite material consisting of titica vine fibers (Heteropsis flexuosa) reinforcing epoxy resin, for possible application in ballistic armor. Composite plates with different volumetric fractions of titica vine fibers (TVF) were subjected to a ballistic test, which consisted of firing multiple shots using .22 LR caliber ammunition. Through the results, it was possible to observe, with statistical validation by Weibull and ANOVA analyses, as well as the Tukey test, that a greater absorption of energy occurred for the conditions of 0 to 20 vol%, but with considerable loss of integrity. On the other hand, the 30 and 40 vol% samples have shown better integrity. In addition, the V L calculated for the samples with the highest percentage of fibers was lower than those found for the composites with 10 and 20 vol%. Thus, the higher the volumetric fraction of TVF, the lower the impact energy absorption capacity. This behavior corroborates the analysis by scanning electron microscopy (SEM) of the fracture surfaces of the composites after the ballistic test. For composites with less than 20 vol% TVF, brittle fractures evidences were observed, responsible for absorbing more impact energy. On the other hand, for other compositions, there was a predominance of complex mechanisms characteristic of ductile fracture, responsible for absorbing less energy, but still maintaining the integrity of the protection.
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