Finite Element Simulation and Experimental Studies on Projectile Perforation of Circular and Rectangular Plates

Experiments and simulations on projectile impact to circular and rectangular plates made of aluminum alloy 2024-T3 were carried out. Ballistic limit and deformation of circular plates and rectangular plates at impact point were examined. The experimental results were compared with the simulation one...

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Veröffentlicht in:	Key Engineering Materials 2016-09, Vol.715, p.68-73
Hauptverfasser:	Mizutani, Koji, Enomoto, Shingo, Moroe, Tomoki, Shin, Hyung Seop, Bae, Kyung Oh, Yamada, Koki, Nishida, Masahiro, Matsuda, Tomoaki
Format:	Artikel
Sprache:	eng
Schlagworte:	Aluminum base alloys Circularity Finite element method Fracture mechanics Mathematical analysis Projectiles Rectangular plates Simulation
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creator	Mizutani, Koji Enomoto, Shingo Moroe, Tomoki Shin, Hyung Seop Bae, Kyung Oh Yamada, Koki Nishida, Masahiro Matsuda, Tomoaki
description	Experiments and simulations on projectile impact to circular and rectangular plates made of aluminum alloy 2024-T3 were carried out. Ballistic limit and deformation of circular plates and rectangular plates at impact point were examined. The experimental results were compared with the simulation ones which calculated using the materials properties experimentally obtained. The effects of mesh size and fracture strain on both the crack limit velocity and the perforate limit velocity were discussed.
doi_str_mv	10.4028/www.scientific.net/KEM.715.68
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subjects	Aluminum base alloys Circularity Finite element method Fracture mechanics Mathematical analysis Projectiles Rectangular plates Simulation
title	Finite Element Simulation and Experimental Studies on Projectile Perforation of Circular and Rectangular Plates
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