Soft body armour

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...

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Bibliographic Details
Published inTextile progress Vol. 51; no. 2; pp. 139 - 224
Main Authors Mawkhlieng, Unsanhame, Majumdar, Abhijit
Format Journal Article
LanguageEnglish
Published Abingdon Taylor & Francis 03.04.2019
Taylor & Francis Ltd
Subjects
Armor
Back face signature
ballistic
Ballistic impact tests
Biomimetics
Energy absorption
Energy dissipation
Failure mechanisms
high-performance fibres
impact
Nanomaterials
Natural rubber
Performance evaluation
Shear thickening (liquids)
shear thickening fluid
Smart materials
soft body armour
Textiles
Thickening
yarn pull-out
Online AccessGet full text
ISSN0040-5167
1754-2278
DOI10.1080/00405167.2019.1692583

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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.
AbstractList 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.
Author Mawkhlieng, Unsanhame
Majumdar, Abhijit
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  surname: Majumdar
  fullname: Majumdar, Abhijit
  email: abhijit.mujumdar@textile.iitd.ac.in
  organization: Department of Textile and Fibre Engineering, Indian Institute of Technology Delhi
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Snippet 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...
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SubjectTerms Armor
Back face signature
ballistic
Ballistic impact tests
Biomimetics
Energy absorption
Energy dissipation
Failure mechanisms
high-performance fibres
impact
Nanomaterials
Natural rubber
Performance evaluation
Shear thickening (liquids)
shear thickening fluid
Smart materials
soft body armour
Textiles
Thickening
yarn pull-out
Title Soft body armour
URI https://www.tandfonline.com/doi/abs/10.1080/00405167.2019.1692583
https://www.proquest.com/docview/2362163008
Volume 51
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