Soft body armour

IF 2.1 Q2 MATERIALS SCIENCE, TEXTILES
Unsanhame Mawkhlieng, A. Majumdar
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引用次数: 24

Abstract

Abstract A detailed and timely progress of soft body armour against stab and ballistic impact is presented in this monograph. The classification and the evolution of body armour is briefly presented, demonstrating the change of material choice with time. The energy absorption capacity of soft body armour and the mechanisms by which this energy is absorbed or dissipated are dependent upon various parameters and a detailed review is highlighted to best understand the material and structural influence. Various stab and ballistic resistance standards against which armour is currently evaluated are presented in detail. Additionally, the different techniques used to evaluate the performance of armour, from a single layer high-performance fabric to a full armour panel assembly are explained in depth, focusing on yarn pull-out, dynamic impact and ballistic test. Further, different approaches adapted to improve the impact or ballistic response of a high-performance fabric used for soft armour panels is reported exhaustively, with special attention drawn to the application of natural rubber, shear thickening fluid (STF) and surface modification of fibre. Among these, the use of STF is given greater importance, minutely exploring the mechanism of shear thickening, the factors affecting shear thickening behaviour and the methods adopted to improve the thickening or viscosity of STFs. Furthermore, emphasis is laid upon the failure mechanisms of a single high-performance fabric to low velocity impact and of an armour panel to high velocity impact, both for neat and STF treated structures. Moreover, the effectiveness or applicability of soft body armour is valid only when certain conditions are met, a list of which is concisely outlined. Finally, with new techniques and approaches being explored at research level, a futuristic and revolutionalised concept of soft body armour is anticipated- the application of nanomaterials, the use of smart textiles and the concept of biomimetics in armour design.
软防弹衣
摘要本专论详细而及时地介绍了针对刺伤和弹道冲击的软体装甲的进展。简要介绍了防弹衣的分类和演变,展示了材料选择随时间的变化。柔体甲的能量吸收能力以及吸收或耗散能量的机制取决于各种参数,并强调了详细的审查,以更好地了解材料和结构的影响。详细介绍了目前评估装甲所依据的各种防刺和防弹标准。此外,还深入解释了用于评估装甲性能的不同技术,从单层高性能织物到全装甲板组件,重点是纱线拉出、动态冲击和弹道测试。此外,详尽报道了适用于改善软装甲板用高性能织物的冲击或弹道响应的不同方法,特别关注天然橡胶、剪切增稠液(STF)和纤维表面改性的应用。其中,STF的使用更为重要,详细探讨了剪切增稠的机理、影响剪切增稠行为的因素以及提高STF增稠或粘度的方法。此外,还强调了单一高性能织物在低速冲击下和装甲板在高速冲击下的失效机制,这两种机制都适用于整洁和STF处理的结构。此外,只有在满足某些条件的情况下,柔体甲的有效性或适用性才有效,并简要列出了这些条件的清单。最后,随着新技术和方法在研究层面的探索,人们期待着一个未来的、革命性的软质防弹衣概念——纳米材料的应用、智能纺织品的使用以及仿生在防弹衣设计中的概念。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
TEXTILE PROGRESS
TEXTILE PROGRESS MATERIALS SCIENCE, TEXTILES-
CiteScore
4.90
自引率
6.70%
发文量
1
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