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Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
by Wei, Qingsong , Zhang, Huapeng , Yang, Dan , Chen, Jiaxue
in absorption / Antiballistic materials / Armor / Ballistic penetration / Characterization and Evaluation of Materials / Chemistry and Materials Science / Classical Mechanics / Comparative analysis / Composites & Nanocomposites / Crystallography and Scattering Methods / Damage assessment / deformation / Deformation analysis / energy / Energy absorption / finite element analysis / Finite element method / Force and energy / Impact analysis / Impact damage / Materials Science / Penetration resistance / Polymer Sciences / Projectiles / Solid Mechanics / Strain rate / Stress propagation / Stress transfer / Stress waves / Terminal ballistics / Thickness / Warp yarns / Wave propagation / Woven fabrics / yarns
2024
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Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
by Wei, Qingsong , Zhang, Huapeng , Yang, Dan , Chen, Jiaxue
in absorption / Antiballistic materials / Armor / Ballistic penetration / Characterization and Evaluation of Materials / Chemistry and Materials Science / Classical Mechanics / Comparative analysis / Composites & Nanocomposites / Crystallography and Scattering Methods / Damage assessment / deformation / Deformation analysis / energy / Energy absorption / finite element analysis / Finite element method / Force and energy / Impact analysis / Impact damage / Materials Science / Penetration resistance / Polymer Sciences / Projectiles / Solid Mechanics / Strain rate / Stress propagation / Stress transfer / Stress waves / Terminal ballistics / Thickness / Warp yarns / Wave propagation / Woven fabrics / yarns
2024
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Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
by Wei, Qingsong , Zhang, Huapeng , Yang, Dan , Chen, Jiaxue
in absorption / Antiballistic materials / Armor / Ballistic penetration / Characterization and Evaluation of Materials / Chemistry and Materials Science / Classical Mechanics / Comparative analysis / Composites & Nanocomposites / Crystallography and Scattering Methods / Damage assessment / deformation / Deformation analysis / energy / Energy absorption / finite element analysis / Finite element method / Force and energy / Impact analysis / Impact damage / Materials Science / Penetration resistance / Polymer Sciences / Projectiles / Solid Mechanics / Strain rate / Stress propagation / Stress transfer / Stress waves / Terminal ballistics / Thickness / Warp yarns / Wave propagation / Woven fabrics / yarns
2024

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Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants
Journal Article

Comparative ballistic performance of 3D through-the-thickness angle-interlock woven fabrics and their reinforced variants

Wei, Qingsong,
Zhang, Huapeng,
Yang, Dan,
Chen, Jiaxue
2024
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Overview
This study investigates the ballistic performance of a novel 3D through the thickness angle-interlock woven fabric (3DTAWF) and its reinforced variant (3DRTAWF) under impact by full metal jacketed projectiles. Finite element analysis employing mesoscopic yarn-level models accurately captures the fabrics' behavior during ballistic penetration. Strain rate dependent material models enhance computational accuracy. The impact damage evolution, energy absorption mechanisms, stress wave propagation, projectile energy loss, back-face deformation, and residual velocities are analyzed. 3DRTAWF exhibits superior ballistic resistance attributed to its supplementary straight warp yarns that enhance energy absorption capabilities. Comparative assessments unveil how the 3D angle-interlock woven architecture influences ballistic performance parameters like damage morphology, deformation profiles, and stress distributions. The straight warp reinforcement in 3DRTAWF elevates fabric integrity, compactness, and stress transfer efficiency during impact events. Findings elucidate the roles of fabric architecture and warp yarn configuration in governing ballistic impact responses. This investigation provides guidance for designing advanced 3D woven fabrics tailored for superior ballistic protection applications.
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Publisher
Springer US,Springer,Springer Nature B.V
Subject

absorption

/ Antiballistic materials

/ Armor

/ Ballistic penetration

/ Characterization and Evaluation of Materials

/ Chemistry and Materials Science

/ Classical Mechanics

/ Comparative analysis

/ Composites & Nanocomposites

/ Crystallography and Scattering Methods

/ Damage assessment

/ deformation

/ Deformation analysis

/ energy

/ Energy absorption

/ finite element analysis

/ Finite element method

/ Force and energy

/ Impact analysis

/ Impact damage

/ Materials Science

/ Penetration resistance

/ Polymer Sciences

/ Projectiles

/ Solid Mechanics

/ Strain rate

/ Stress propagation

/ Stress transfer

/ Stress waves

/ Terminal ballistics

/ Thickness

/ Warp yarns

/ Wave propagation

/ Woven fabrics

/ yarns

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