Standard

Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile. / Venkatesan, J.; Iqbal, M. A.; Gupta, N. K.; Bratov, V.; Kazarinov, N.; Morozov, F.

XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017). ed. / Y Petrov; Silberschmidt. Elsevier, 2017. p. 40-47 (Procedia Structural Integrity; Vol. 6).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Venkatesan, J, Iqbal, MA, Gupta, NK, Bratov, V, Kazarinov, N & Morozov, F 2017, Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile. in Y Petrov & Silberschmidt (eds), XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017). Procedia Structural Integrity, vol. 6, Elsevier, pp. 40-47, 27th International Conference on Mathematical and Computer Simulations in Mechanics of Solids and Structures - Fundamentals of Static and Dynamic Fracture (MCM), Saint Petersburg, Russian Federation, 25/09/17. https://doi.org/10.1016/j.prostr.2017.11.007, https://doi.org/10.1016/j.prostr.2017.11.007

APA

Venkatesan, J., Iqbal, M. A., Gupta, N. K., Bratov, V., Kazarinov, N., & Morozov, F. (2017). Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile. In Y. Petrov, & Silberschmidt (Eds.), XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017) (pp. 40-47). (Procedia Structural Integrity; Vol. 6). Elsevier. https://doi.org/10.1016/j.prostr.2017.11.007, https://doi.org/10.1016/j.prostr.2017.11.007

Vancouver

Venkatesan J, Iqbal MA, Gupta NK, Bratov V, Kazarinov N, Morozov F. Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile. In Petrov Y, Silberschmidt, editors, XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017). Elsevier. 2017. p. 40-47. (Procedia Structural Integrity). https://doi.org/10.1016/j.prostr.2017.11.007, https://doi.org/10.1016/j.prostr.2017.11.007

Author

Venkatesan, J. ; Iqbal, M. A. ; Gupta, N. K. ; Bratov, V. ; Kazarinov, N. ; Morozov, F. / Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile. XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017). editor / Y Petrov ; Silberschmidt. Elsevier, 2017. pp. 40-47 (Procedia Structural Integrity).

BibTeX

@inproceedings{e47847e28bc34f0c9c2f5c21615f029a,
title = "Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile",
abstract = "The present study focused the effect of aluminium series backing layer on the ballistic resistance of bi-layer ceramic/metal target by means of three dimensional numerical simulation using ANSYS/AUTODYN explicit solver which is cable of modeling and solving the 3D explicit problems. The ceramic and metal layer of bi-layer target was alumina 95% and 1100-H12, 2024-T3, 6061, 7075 aluminium respectively and the impact velocity of ogive nose projectile of 4340 steel was 493, 820 and 1200 m/s. The strength and failure mode of alumina, and steel and aluminium under the projectile impact was computationally modelled by Johnson-Holmiquist (JH-2) model and Johnson-Cook (JC) model respectively. The results shows that ballistic resistance of bi-layer target significantly varied with the aluminium series. 7075 aluminium backing helped the bi-layer target to offer high resistance to the projectile penetration for all the impact velocities.",
keywords = "separated by semicolons, Type your keywords here",
author = "J. Venkatesan and Iqbal, {M. A.} and Gupta, {N. K.} and V. Bratov and N. Kazarinov and F. Morozov",
year = "2017",
month = jan,
day = "1",
doi = "10.1016/j.prostr.2017.11.007",
language = "English",
series = "Procedia Structural Integrity",
publisher = "Elsevier",
pages = "40--47",
editor = "Y Petrov and Silberschmidt",
booktitle = "XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017)",
address = "Netherlands",
note = "27th International Conference on Mathematical and Computer Simulations in Mechanics of Solids and Structures - Fundamentals of Static and Dynamic Fracture (MCM) ; Conference date: 25-09-2017 Through 27-09-2017",

}

RIS

TY - GEN

T1 - Ballistic Characteristics of Bi-layered Armour with Various Aluminium Backing against Ogive Nose Projectile

AU - Venkatesan, J.

AU - Iqbal, M. A.

AU - Gupta, N. K.

AU - Bratov, V.

AU - Kazarinov, N.

AU - Morozov, F.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - The present study focused the effect of aluminium series backing layer on the ballistic resistance of bi-layer ceramic/metal target by means of three dimensional numerical simulation using ANSYS/AUTODYN explicit solver which is cable of modeling and solving the 3D explicit problems. The ceramic and metal layer of bi-layer target was alumina 95% and 1100-H12, 2024-T3, 6061, 7075 aluminium respectively and the impact velocity of ogive nose projectile of 4340 steel was 493, 820 and 1200 m/s. The strength and failure mode of alumina, and steel and aluminium under the projectile impact was computationally modelled by Johnson-Holmiquist (JH-2) model and Johnson-Cook (JC) model respectively. The results shows that ballistic resistance of bi-layer target significantly varied with the aluminium series. 7075 aluminium backing helped the bi-layer target to offer high resistance to the projectile penetration for all the impact velocities.

AB - The present study focused the effect of aluminium series backing layer on the ballistic resistance of bi-layer ceramic/metal target by means of three dimensional numerical simulation using ANSYS/AUTODYN explicit solver which is cable of modeling and solving the 3D explicit problems. The ceramic and metal layer of bi-layer target was alumina 95% and 1100-H12, 2024-T3, 6061, 7075 aluminium respectively and the impact velocity of ogive nose projectile of 4340 steel was 493, 820 and 1200 m/s. The strength and failure mode of alumina, and steel and aluminium under the projectile impact was computationally modelled by Johnson-Holmiquist (JH-2) model and Johnson-Cook (JC) model respectively. The results shows that ballistic resistance of bi-layer target significantly varied with the aluminium series. 7075 aluminium backing helped the bi-layer target to offer high resistance to the projectile penetration for all the impact velocities.

KW - separated by semicolons

KW - Type your keywords here

UR - http://www.scopus.com/inward/record.url?scp=85066293410&partnerID=8YFLogxK

U2 - 10.1016/j.prostr.2017.11.007

DO - 10.1016/j.prostr.2017.11.007

M3 - Conference contribution

AN - SCOPUS:85066293410

T3 - Procedia Structural Integrity

SP - 40

EP - 47

BT - XXVII INTERNATIONAL CONFERENCE: MATHEMATICAL AND COMPUTER SIMULATION IN MECHANICS OF SOLIDS AND STRUCTURES - FUNDAMENTALS OF STATIC AND DYNAMIC FRACTURE (MCM 2017)

A2 - Petrov, Y

A2 - Silberschmidt, null

PB - Elsevier

T2 - 27th International Conference on Mathematical and Computer Simulations in Mechanics of Solids and Structures - Fundamentals of Static and Dynamic Fracture (MCM)

Y2 - 25 September 2017 through 27 September 2017

ER -

ID: 61897315