Thickening effect of shear thickening fluid under normal loading to improve stab resistance of shear thickening fluid–fabric composite

Textile Research Journal Pub Date : 2024-06-06 DOI:10.1177/00405175241256406

Lijuan Wang, Qi Zhao, Xingxing Hu, Qingping Liu, Kejing Yu

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Abstract

Shear thickening fluid (STF) for personal stab-resistant clothing has been consistently discussed. However, it is not clear whether STF in STF–fabric composite materials undergoes thickening under normal loads, and to what extent. In this study, the yarn pullout test and the knife-stab test in the quasistatic mode were used to establish the enhancement effect of STF, owing to the dominant thickening mechanism. The results of pullout–in tests for STF show that the thickening effort of STF becomes stronger with increasing speed. There is an observable increase for the pullout–in force. The addition of STF can slightly improve the yarn pullout force and peak stab force for STF-treated fabric at low velocities, owing to friction enhancement. More importantly, at higher speeds, the peak pullout force of yarn was increased to 28.9 N, which increased by about 140% compared with low velocities. The peak stab forces increased by about 80% compared with low stab speeds. It is affirmed that the thickening effect of STF under normal loads plays a dominant role in enhancing STF–fabric composite materials.

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剪切增稠流体在正常载荷下的增稠效应改善剪切增稠流体-织物复合材料的抗稳定性能

人们一直在讨论用于个人防刺服的剪切增稠液（STF）。然而，STF-织物复合材料中的 STF 在正常载荷下是否会发生增稠，以及增稠的程度如何，目前尚不清楚。本研究采用纱线拉拔试验和准静态模式下的刀刺试验来确定 STF 的增强效应，这是由于增厚机制占主导地位。STF 的拉拔试验结果表明，随着速度的增加，STF 的增稠作用会变得更强。拉拔力也明显增加。由于摩擦力的增强，添加 STF 可以略微改善 STF 处理织物在低速下的纱线拉拔力和峰值刺穿力。更重要的是，在较高速度下，纱线的峰值拔出力增加到 28.9 N，与低速相比增加了约 140%。与低速相比，峰值刺穿力增加了约 80%。这证实了 STF 在正常载荷下的增厚效应在增强 STF-织物复合材料方面发挥了主导作用。

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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Textile Research Journal

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