The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide

碩士 === 逢甲大學 === 纖維與複合材料學系 === 105 === In order to reduce the number of layers of Kevlar fabric effectively and to improve the mobility of personnel, we used colloidal silica dispersed in polyethylene glycol to prepare shear thickening fluid that was used in protective armor with effective protective...

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Main Authors: ZHENG,MING ZHE, 鄭明哲
Other Authors: TSAI,I-SHOU
Format: Others
Language:zh-TW
Published: 2017
Online Access:http://ndltd.ncl.edu.tw/handle/222q6m
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spelling ndltd-TW-105FCU002920052019-05-15T23:17:35Z http://ndltd.ncl.edu.tw/handle/222q6m The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide 克維拉/剪切增稠流體/氧化石墨烯防彈布耐穿刺性質之研究 ZHENG,MING ZHE 鄭明哲 碩士 逢甲大學 纖維與複合材料學系 105 In order to reduce the number of layers of Kevlar fabric effectively and to improve the mobility of personnel, we used colloidal silica dispersed in polyethylene glycol to prepare shear thickening fluid that was used in protective armor with effective protective properties. The addition of graphene oxide was discussed in this paper to investigate its impact on the effect of shear fluid properties. In this study, we investigated the puncture test, falling weight impact test, rheological test and torsion test of colloidal silica in different molecular weight of polyethylene glycol (PEG) impregnated Kevlar KK10 fabric. The falling weight impact test was carried out by using blunt-nosed bullet (9 mm) and pointed bullet (7.62 mm), and hope the test results can be applied to the anti-bullet protection. The experimental results showed that the fabric impregnated with PEG molecular weight of 200 and 60 wt% of colloidal silica had better puncture resistance than that of non-impregnated fabric by 414%. In the falling weight impact test with blunt-nosed bullet, the absorption energy of the impregnated fabric was increased by 66.87%; whereas the absorption energy of the impregnated fabric with pointed bullet was increased by 126.11%. The addition of graphene oxide impacted on the shear thickening phenomenon, and enhanced the anti-puncture property of PEG with molecule weight of 600; however, it decreased that of PEG with molecule weight of 200. TSAI,I-SHOU 蔡宜壽 2017 學位論文 ; thesis 73 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 逢甲大學 === 纖維與複合材料學系 === 105 === In order to reduce the number of layers of Kevlar fabric effectively and to improve the mobility of personnel, we used colloidal silica dispersed in polyethylene glycol to prepare shear thickening fluid that was used in protective armor with effective protective properties. The addition of graphene oxide was discussed in this paper to investigate its impact on the effect of shear fluid properties. In this study, we investigated the puncture test, falling weight impact test, rheological test and torsion test of colloidal silica in different molecular weight of polyethylene glycol (PEG) impregnated Kevlar KK10 fabric. The falling weight impact test was carried out by using blunt-nosed bullet (9 mm) and pointed bullet (7.62 mm), and hope the test results can be applied to the anti-bullet protection. The experimental results showed that the fabric impregnated with PEG molecular weight of 200 and 60 wt% of colloidal silica had better puncture resistance than that of non-impregnated fabric by 414%. In the falling weight impact test with blunt-nosed bullet, the absorption energy of the impregnated fabric was increased by 66.87%; whereas the absorption energy of the impregnated fabric with pointed bullet was increased by 126.11%. The addition of graphene oxide impacted on the shear thickening phenomenon, and enhanced the anti-puncture property of PEG with molecule weight of 600; however, it decreased that of PEG with molecule weight of 200.
author2 TSAI,I-SHOU
author_facet TSAI,I-SHOU
ZHENG,MING ZHE
鄭明哲
author ZHENG,MING ZHE
鄭明哲
spellingShingle ZHENG,MING ZHE
鄭明哲
The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
author_sort ZHENG,MING ZHE
title The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
title_short The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
title_full The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
title_fullStr The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
title_full_unstemmed The Study on Anti-stab Property of Fabric with Kevlar/Shear Thickening Fluid/ Graphene Oxide
title_sort study on anti-stab property of fabric with kevlar/shear thickening fluid/ graphene oxide
publishDate 2017
url http://ndltd.ncl.edu.tw/handle/222q6m
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