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Impact Damage Caused by Sharp Objects on Fabric Materials

Authors
Hiremath, ShivashankarOh, JeongwooZhang, YuKim, Tae-Won
Issue Date
Sep-2024
Publisher
Society of Fiber Science and Technology/Sen'i Gakkai
Citation
Sen'i Gakkaishi, v.80, no.8, pp 184 - 196
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Sen'i Gakkaishi
Volume
80
Number
8
Start Page
184
End Page
196
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/204804
DOI
10.2115/fiberst.2024-0021
ISSN
0037-9875
1884-2259
Abstract
Sharp objects like knives and axes are tools designed for cutting and chopping tasks. However, their sharp edges also make them potentially dangerous and capable of causing harm to people. Herein four distinct types of knives were examined for the penetration and damages brought on by stabbing carbon and Kevlar fabrics. The analysis stated the damage patterns resulting from the sharp impacts and concentrated on factors that influence fabric penetration. Penetration force was recorded with different knives and impact velocities on the fabric material, revealing insights into the punching behavior of carbon and Kevlar fabrics. It was observed that impacts with sharp knives at varying heights caused increased punching force and energy in both fabric materials. Notably, Kevlar fabric showed minimal depth of penetration upon impact from sharp knives. Sheep foot point knife K3 exhibited the maximum penetration force, energy, and depth of penetration due to its pointed sharp angle and substantial weight. Additionally, this knife caused less surface area breaches in the fabric. In contrast, Drop point K1, Clip point K2, and Cleaver point K4 knives resulted in larger surface damage, with average damage areas of 156 mm and 95 mm for carbon and Kevlar fabrics, respectively. Cleaver point knife K4 experienced the least penetration in the fabric due to its blunted structure. These findings are valuable for researchers studying knife crime offenses, knife manufacturing, and fabric types for protective body armor against stab threats. They contribute to understanding the dynamics of such attacks and informing the development of effective protective measures.
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