NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY

Oussama Atoui; Azer Maazoun; Abdelhafidh Moumen; Bachir Belkassem; Lincy Pyl; David Lecompte

NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY

Oussama Atoui, Azer Maazoun, Abdelhafidh Moumen, Bachir Belkassem, Lincy Pyl, David Lecompte

Vrije Universiteit Brussel

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

The present paper deals with the numerical analysis of the impact and perforation of a high velocity rigid steel spherical projectile through an Aluminum plate AA2014-T652 using the commercial software LS-DYNA. These numerical investigations are performed in the velocity range from 800 m/s to 1300 m/s. The target plate with a thickness of 15mm and the spherical projectile with a diameter of 10mm are modelled using three-dimensional elements (3D) in a Lagrangian formulation. A hydrostatic tensile stress failure model combined with the Johnson and Cook constitutive model is used to highlight the dynamic failure of the target. The different failure mechanisms observed on the Aluminum plate from the moment of impact to full perforation are discussed. The numerical results based on the crater diameter at the front and rear surface of the plate and the dimensions of the penetration channel are compared to the experimental data available in literature.

Originalsprache	Englisch
Titel	Exterior Ballistics, Terminal Ballistics
Redakteure/-innen	Thelma G. Manning, Frederick C. Rickert
Herausgeber (Verlag)	DEStech Publications
Seiten	1209-1221
Seitenumfang	13
ISBN (elektronisch)	9781605956893
Publikationsstatus	Veröffentlicht - 2022
Veranstaltung	32nd International Symposium on Ballistics, BALLISTICS 2022 - Reno, USA/Vereinigte Staaten Dauer: 9 Mai 2022 → 13 Mai 2022

Publikationsreihe

Name	Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022
Band	2

Konferenz

Konferenz	32nd International Symposium on Ballistics, BALLISTICS 2022
Land/Gebiet	USA/Vereinigte Staaten
Ort	Reno
Zeitraum	9/05/22 → 13/05/22

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Atoui, O., Maazoun, A., Moumen, A., Belkassem, B., Pyl, L., & Lecompte, D. (2022). NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY. in T. G. Manning, & F. C. Rickert (Hrsg.), Exterior Ballistics, Terminal Ballistics (S. 1209-1221). (Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022; Band 2). DEStech Publications.

Atoui, Oussama ; Maazoun, Azer ; Moumen, Abdelhafidh et al. / NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY. Exterior Ballistics, Terminal Ballistics. Hrsg. / Thelma G. Manning ; Frederick C. Rickert. DEStech Publications, 2022. S. 1209-1221 (Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022).

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title = "NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY",

abstract = "The present paper deals with the numerical analysis of the impact and perforation of a high velocity rigid steel spherical projectile through an Aluminum plate AA2014-T652 using the commercial software LS-DYNA. These numerical investigations are performed in the velocity range from 800 m/s to 1300 m/s. The target plate with a thickness of 15mm and the spherical projectile with a diameter of 10mm are modelled using three-dimensional elements (3D) in a Lagrangian formulation. A hydrostatic tensile stress failure model combined with the Johnson and Cook constitutive model is used to highlight the dynamic failure of the target. The different failure mechanisms observed on the Aluminum plate from the moment of impact to full perforation are discussed. The numerical results based on the crater diameter at the front and rear surface of the plate and the dimensions of the penetration channel are compared to the experimental data available in literature.",

author = "Oussama Atoui and Azer Maazoun and Abdelhafidh Moumen and Bachir Belkassem and Lincy Pyl and David Lecompte",

note = "Publisher Copyright: {\textcopyright} Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022. All rights reserved.; 32nd International Symposium on Ballistics, BALLISTICS 2022 ; Conference date: 09-05-2022 Through 13-05-2022",

year = "2022",

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Atoui, O, Maazoun, A, Moumen, A, Belkassem, B, Pyl, L & Lecompte, D 2022, NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY. in TG Manning & FC Rickert (Hrsg.), Exterior Ballistics, Terminal Ballistics. Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022, Bd. 2, DEStech Publications, S. 1209-1221, 32nd International Symposium on Ballistics, BALLISTICS 2022, Reno, USA/Vereinigte Staaten, 9/05/22.

NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY. / Atoui, Oussama; Maazoun, Azer; Moumen, Abdelhafidh et al.
Exterior Ballistics, Terminal Ballistics. Hrsg. / Thelma G. Manning; Frederick C. Rickert. DEStech Publications, 2022. S. 1209-1221 (Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022; Band 2).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

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AU - Atoui, Oussama

AU - Maazoun, Azer

AU - Moumen, Abdelhafidh

AU - Belkassem, Bachir

AU - Pyl, Lincy

AU - Lecompte, David

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N2 - The present paper deals with the numerical analysis of the impact and perforation of a high velocity rigid steel spherical projectile through an Aluminum plate AA2014-T652 using the commercial software LS-DYNA. These numerical investigations are performed in the velocity range from 800 m/s to 1300 m/s. The target plate with a thickness of 15mm and the spherical projectile with a diameter of 10mm are modelled using three-dimensional elements (3D) in a Lagrangian formulation. A hydrostatic tensile stress failure model combined with the Johnson and Cook constitutive model is used to highlight the dynamic failure of the target. The different failure mechanisms observed on the Aluminum plate from the moment of impact to full perforation are discussed. The numerical results based on the crater diameter at the front and rear surface of the plate and the dimensions of the penetration channel are compared to the experimental data available in literature.

AB - The present paper deals with the numerical analysis of the impact and perforation of a high velocity rigid steel spherical projectile through an Aluminum plate AA2014-T652 using the commercial software LS-DYNA. These numerical investigations are performed in the velocity range from 800 m/s to 1300 m/s. The target plate with a thickness of 15mm and the spherical projectile with a diameter of 10mm are modelled using three-dimensional elements (3D) in a Lagrangian formulation. A hydrostatic tensile stress failure model combined with the Johnson and Cook constitutive model is used to highlight the dynamic failure of the target. The different failure mechanisms observed on the Aluminum plate from the moment of impact to full perforation are discussed. The numerical results based on the crater diameter at the front and rear surface of the plate and the dimensions of the penetration channel are compared to the experimental data available in literature.

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BT - Exterior Ballistics, Terminal Ballistics

A2 - Manning, Thelma G.

A2 - Rickert, Frederick C.

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T2 - 32nd International Symposium on Ballistics, BALLISTICS 2022

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Atoui O, Maazoun A, Moumen A, Belkassem B, Pyl L, Lecompte D. NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY. in Manning TG, Rickert FC, Hrsg., Exterior Ballistics, Terminal Ballistics. DEStech Publications. 2022. S. 1209-1221. (Proceedings - 32nd International Symposium on Ballistics, BALLISTICS 2022).

NUMERICAL ANALYSIS OF THE DYNAMIC MECHANICAL BEHAVIOR OF HIGH STRENGTH ALUMINUM ALLOY AA2014-T652 UNDER HIGH IMPACT VELOCITY

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