Formulation and simulation of impact dynamics for multilayer fabrics with various weaves

Formulation and simulation of impact dynamics for multilayer fabrics with various weaves

The high strength, light weight, and flexibility of fabric protection systems makes them the preferred solution for a number of ballistic applications. Examples include body armor, fan blade containment for jet engines, and orbital debris shielding. In general, these protection systems employ plain...

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Bibliographic Details
Main Author: Shimek, Moss Evan
Format: Others
Language:English
Published: 2012
Subjects:
Impact
Impact simulation
Ballistic
Fabric armor
Extremity
Dynamic simulation
Online Access:http://hdl.handle.net/2152/ETD-UT-2011-12-4505
id ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-ETD-UT-2011-12-4505
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spelling ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-ETD-UT-2011-12-45052015-09-20T17:04:50ZFormulation and simulation of impact dynamics for multilayer fabrics with various weavesShimek, Moss EvanImpactImpact simulationBallisticFabric armorExtremityDynamic simulationThe high strength, light weight, and flexibility of fabric protection systems makes them the preferred solution for a number of ballistic applications. Examples include body armor, fan blade containment for jet engines, and orbital debris shielding. In general, these protection systems employ plain woven fabric, most suitable for flat or gently curved geometries. Highly curved surfaces, such as personnel extremities, may be more effectively protected using fabrics of different weaves. This dissertation presents the first numerical model developed to simulate ballistic impacts into plain, harness satin, twill, and basket weave fabrics. It extends previous work on hybrid particle-finite element methods developed for fabric modeling. The extended formulation closely replicates the tensile load response and contact-impact dynamics of highly flexible yarns, by generalizing the kinematic model and density interpolation used in previous work. The formulation has been validated in three dimensional simulations of impact experiments conducted to investigate the effects of weave type on fabric ballistic performance.text2012-02-03T17:06:00Z2012-02-03T17:06:00Z2011-122012-02-03December 20112012-02-03T17:10:52Zthesisapplication/pdfhttp://hdl.handle.net/2152/ETD-UT-2011-12-45052152/ETD-UT-2011-12-4505eng
collection NDLTD
language English
format Others
sources NDLTD
topic Impact
Impact simulation
Ballistic
Fabric armor
Extremity
Dynamic simulation
spellingShingle Impact
Impact simulation
Ballistic
Fabric armor
Extremity
Dynamic simulation
Shimek, Moss Evan
Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
description The high strength, light weight, and flexibility of fabric protection systems makes them the preferred solution for a number of ballistic applications. Examples include body armor, fan blade containment for jet engines, and orbital debris shielding. In general, these protection systems employ plain woven fabric, most suitable for flat or gently curved geometries. Highly curved surfaces, such as personnel extremities, may be more effectively protected using fabrics of different weaves. This dissertation presents the first numerical model developed to simulate ballistic impacts into plain, harness satin, twill, and basket weave fabrics. It extends previous work on hybrid particle-finite element methods developed for fabric modeling. The extended formulation closely replicates the tensile load response and contact-impact dynamics of highly flexible yarns, by generalizing the kinematic model and density interpolation used in previous work. The formulation has been validated in three dimensional simulations of impact experiments conducted to investigate the effects of weave type on fabric ballistic performance. === text
author Shimek, Moss Evan
author_facet Shimek, Moss Evan
author_sort Shimek, Moss Evan
title Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
title_short Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
title_full Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
title_fullStr Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
title_full_unstemmed Formulation and simulation of impact dynamics for multilayer fabrics with various weaves
title_sort formulation and simulation of impact dynamics for multilayer fabrics with various weaves
publishDate 2012
url http://hdl.handle.net/2152/ETD-UT-2011-12-4505
work_keys_str_mv AT shimekmossevan formulationandsimulationofimpactdynamicsformultilayerfabricswithvariousweaves
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