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HUŠEK, M. KALA, J. KRÁL, P. HOKEŠ, F.
Original Title
Concept and Numerical Simulations of a Reactive Anti-Fragment Armour Layer
Type
conference paper
Language
English
Original Abstract
The contribution describes the concept and numerical simulation of a ballistic protective layer which is able to actively resist projectiles or smaller colliding fragments flying at high speed. The principle of the layer was designed on the basis of the action/reaction system of reactive armour which is used for the protection of armoured vehicles. As the designed ballistic layer consists of steel plates simultaneously combined with explosive material – primary explosive and secondary explosive – the technique of coupling the Finite Element Method with Smoothed Particle Hydrodynamics was used for the simulations. Certain standard situations which the ballistic layer should resist were simulated. The contribution describes the principles for the successful execution of numerical simulations, their results, and an evaluation of the functionality of the ballistic layer.
Keywords
Smoothed Particle Hydrodynamics, reactive armour, high speed impact, explosion, detonation.
Authors
HUŠEK, M.; KALA, J.; KRÁL, P.; HOKEŠ, F.
Released
19. 9. 2016
Location
Rhodos, Řecko
ISBN
0094-243X
Periodical
AIP conference proceedings
Year of study
2016
Number
1
State
United States of America
Pages from
Pages to
4
Pages count
BibTex
@inproceedings{BUT133057, author="Martin {Hušek} and Jiří {Kala} and Petr {Král} and Filip {Hokeš}", title="Concept and Numerical Simulations of a Reactive Anti-Fragment Armour Layer", booktitle="14th International Conference of Numerical Analysis and Applied Mathematics", year="2016", journal="AIP conference proceedings", volume="2016", number="1", pages="1--4", address="Rhodos, Řecko", doi="10.1063/1.4992643", issn="0094-243X" }