Publication result detail

The comparison of numerical simulation of projectile interaction with transparent armour glass for buildings and vehicles

BINAR, T.; ŠVARC, J.; VYROUBAL, P.; KAZDA, T.; ROLC, S.; DVOŘÁK, A.

Original Title

The comparison of numerical simulation of projectile interaction with transparent armour glass for buildings and vehicles

English Title

The comparison of numerical simulation of projectile interaction with transparent armour glass for buildings and vehicles

Type

WoS Article

Original Abstract

In the paper, results of a research project based on the numerical simulation of projectile interactions with transparent armour glass for protected objects such as banks, houses of important person or VIP vehicles and of cores in the anti-terrorist systems for the civil population protection (such as barrier around Eiffel Tower) as per STANAG 4569 AEP-55, Volume 1, are presented. The research was concerned with the impact of projectile interaction on the life cycle of transparent armour glass. The study investigated the scope of damage, the delamination of individual layers of transparent armour glass and the depth of projectile penetration at Protection Level 2 [PARTIAL] (7.62 mm × 39 API BZ) and Level 3 (only projectile 7.62 mm × 54R B32 API) at the temperatures of −32 °C, 20 °C and 55 °C. Using the Finite Element Method (FEM), a transparent armour glass simulation model was created for multihit by two projectiles at a predefined distance. For the purpose of calculation, the LS-Dyna explicit solver was employed allowing the evaluation of theoretical numerical models reliability for a specific application of a projectile (pressure wave) impact on an assembly composed of multiple materials.

English abstract

In the paper, results of a research project based on the numerical simulation of projectile interactions with transparent armour glass for protected objects such as banks, houses of important person or VIP vehicles and of cores in the anti-terrorist systems for the civil population protection (such as barrier around Eiffel Tower) as per STANAG 4569 AEP-55, Volume 1, are presented. The research was concerned with the impact of projectile interaction on the life cycle of transparent armour glass. The study investigated the scope of damage, the delamination of individual layers of transparent armour glass and the depth of projectile penetration at Protection Level 2 [PARTIAL] (7.62 mm × 39 API BZ) and Level 3 (only projectile 7.62 mm × 54R B32 API) at the temperatures of −32 °C, 20 °C and 55 °C. Using the Finite Element Method (FEM), a transparent armour glass simulation model was created for multihit by two projectiles at a predefined distance. For the purpose of calculation, the LS-Dyna explicit solver was employed allowing the evaluation of theoretical numerical models reliability for a specific application of a projectile (pressure wave) impact on an assembly composed of multiple materials.

Keywords

DamageNumerical modelProjectileTransparent armour glassViscoplasticity

Key words in English

DamageNumerical modelProjectileTransparent armour glassViscoplasticity

Authors

BINAR, T.; ŠVARC, J.; VYROUBAL, P.; KAZDA, T.; ROLC, S.; DVOŘÁK, A.

RIV year

2019

Released

30.05.2018

ISBN

1350-6307

Periodical

Engineering Failure Analysis

Volume

92

Number

1

State

United Kingdom of Great Britain and Northern Ireland

Pages from

121

Pages to

139

Pages count

19

BibTex

@article{BUT148054,
  author="Tomáš {Binar} and Jiří {Švarc} and Petr {Vyroubal} and Tomáš {Kazda} and Stanislav {Rolc} and Aleš {Dvořák}",
  title="The comparison of numerical simulation of projectile interaction with transparent armour glass for buildings and vehicles",
  journal="Engineering Failure Analysis",
  year="2018",
  volume="92",
  number="1",
  pages="121--139",
  doi="10.1016/j.engfailanal.2018.05.009",
  issn="1350-6307"
}

Documents

1-s2.0-S1350630718301328-main