Study on the enhancement mechanism of ballistic properties of shear thickening fluid impregnated aramid fabric composite plates

Zhang, Yan; Chang, Lijun; Xu, Jiawen; Chen, Taiwei; Mao, Zhengyu; Cai, Zhihua

doi:10.1002/pc.28201

Polymer Composites

2024

DOI: 10.1002/pc.28201

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Study on the enhancement mechanism of ballistic properties of shear thickening fluid impregnated aramid fabric composite plates

Yan Zhang,

Lijun Chang,

Jiawen Xu

et al.

Abstract: This study proposes a process for the preparation of composite laminates using the shear thickening fluid (STF) impregnated aramid fabric and presents some fabric panel configuration strategies. Firstly, this study prepared two kinds of STF using 20 nm and 500 nm silica particles. Then, the STF‐impregnated Kevlar fabrics were laminated and hot‐pressed to form the fabric panels. After that, the ballistic performance of the fabric panels was evaluated by firing the 9 mm steel core projectile using a gas gun. The… Show more

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2024

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Cited by 2 publications

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Development of stab resistant armor for different energy levels using shear thickening fluid reinforced multi‐layered p‐aramid fabrics

Das,

Butola,

Majumdar

2024

Polymer Composites

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Stab‐resistant armors are important protective gear for the law enforcement officers and security forces. This research attempts to develop stab‐resistant armors for different impact energy levels using multi‐layer neat and shear thickening fluid (STF)‐ treated Kevlar® fabrics. The developed panels were tested using National Institute of Justice's (NIJ) P1 knife at wide range of stabbing energy from 6 to 36 J. The panel containing 16 layers of STF‐treated Kevlar® fabric met the requirements at normal and over‐test conditions showing penetration depth lower than 7 and 20 mm, respectively. For stabbing at high energy level (≥ 24 J), the effect of number of Kevlar® fabric layers was found to be highly beneficial in case of STF‐treated condition and not so for the neat one. STF treatment reduced the stab penetration depth by 40%–68% at 24–36 J energy level without any increase in effective weight of the panel. The fabric‐knife interaction was also studied using a novel sharpness tester and optical microscopy. It was found that the tip of knife deformes and sharpness declines at a faster rate in case of STF‐treated fabric. The study opens up possibilities to explore other materials that would damage the tip of knife during stabbing ensuring better protection.Highlights Stab resistant armor has been developed for different energy levels. Effect of number of neat fabric layers is less pronounced at higher energy levels. STF can reduce the penetration depth significantly at high energy levels. Silica particles damage the knife tip during stabbing. STF‐treated panels are lighter and efficacious than their neat counterparts.

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Development of stab resistant armor for different energy levels using shear thickening fluid reinforced multi‐layered p‐aramid fabrics

Das,

Butola,

Majumdar

2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

Research on ballistic properties of UHMWPE hybrid laminates impregnated with shear thickening fluid

Guo,

Zhang,

Chang

et al. 2024

Materials Letters

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Study on the enhancement mechanism of ballistic properties of shear thickening fluid impregnated aramid fabric composite plates

Cited by 2 publications

References 44 publications

Development of stab resistant armor for different energy levels using shear thickening fluid reinforced multi‐layered p‐aramid fabrics

Development of stab resistant armor for different energy levels using shear thickening fluid reinforced multi‐layered p‐aramid fabrics

Research on ballistic properties of UHMWPE hybrid laminates impregnated with shear thickening fluid

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