增强软防弹衣的丝织物抗刀刺性能

IF 2.2 4区 工程技术 Q1 MATERIALS SCIENCE, TEXTILES Journal of Industrial Textiles Pub Date : 2024-04-04 DOI:10.1177/15280837241245903
Magdi El Messiry, Eman Eltahan
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引用次数: 0

摘要

传统丝绸以其强度、柔韧性和舒适性著称,有望成为轻质、舒适的防刺护甲材料。本研究探索通过表面处理增强丝绸的抗刀刺性能,用于软防弹衣。本研究旨在增强丝绸织物的抗刀刺性能,使其适用于软质防弹衣。设计了一个落塔装置来研究织物在撞击下的反应。探索添加二氧化硅沉积层、米灰沉积层和氧化铝颗粒等涂层的方法,结果显示效果显著。对于完全涂有树脂的单丝层,米灰、氧化铝和氧化硅颗粒的抗刺性能分别提高了约 37.07%、29.21% 和 13.47%。具体的刀具穿透深度表明,涂层能更有效地降低穿透深度。研究发现,7 层纯丝绸和 3 层涂有米灰的丝绸符合美国国家司法研究所标准-0115.00(S1),即 26 层丝绸织物的标准,这表明在不影响防护效果的情况下,丝绸的抗刺穿性能有所降低。
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Enhancement of silk fabric knife-stabbing resistance for soft body armor
Traditional silk, known for its strength, flexibility, and comfort, shows promise as a lightweight, comfortable material for stab-resistant armor. This study explores enhancing silk’s knife-stabbing resistance for soft body armor through surface treatments. This study aims to augment the knife-stabbing resistance of silk fabric for soft body armor. Designed a falling tower setup to investigate fabric responses under impact. Exploring the addition of layers with coatings like silicon dioxide deposition, rice ash deposition, and aluminum oxide particles, the investigation revealed significant enhancements. A solitary silk layer exclusively coated with resin exhibited improvements of approximately 37.07%, 29.21%, and 13.47% in stab resistance for rice ash, aluminum oxide, and silicon oxide particles, respectively. The specific knife penetration depth indicated that the coating is more effective in diminishing penetration depth. The research identified that 7 layers of pure silk and 3 layers coated with rice ash satisfy National Institute of Justice Standard–0115.00, S1 as 26 layers of silk fabric, demonstrating a reduction without compromising protective efficacy.
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来源期刊
Journal of Industrial Textiles
Journal of Industrial Textiles MATERIALS SCIENCE, TEXTILES-
CiteScore
5.30
自引率
18.80%
发文量
165
审稿时长
2.3 months
期刊介绍: The Journal of Industrial Textiles is the only peer reviewed journal devoted exclusively to technology, processing, methodology, modelling and applications in technical textiles, nonwovens, coated and laminated fabrics, textile composites and nanofibers.
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