Simulation of complex plane targets penetration by long rod using MCA method

M. A. Chertov, A. Yu Smolin, E. V. Shilko, S. G. Psakhie, Ke Chen, Dewu Huan

Division for Materials Science

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In the present paper the modified MCA method is applied to simulation of finite thickness steel plate penetration by long tungsten alloy rod. The influence of such parameters as impact velocities and plate thickness on penetration process pattern is studied. The influence of the nutation angle is not considered, only normal impact is considered. The dependences of final velocity and rod's length as functions of impact velocity and plate thickness are presented. The calculated curves and overall behavior of simulated system demonstrated sufficient compliance with the experimental data, which proves that the MCA method is now applicable to a wider range of computational problems.

Original language	English
Title of host publication	Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics
Editors	G.C. Sih, T.B. Kermanidis, S.G. Pantelakis
Pages	307-311
Number of pages	5
Publication status	Published - 2004
Event	Multiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics - Patras, Greece Duration: 31 May 2004 → 4 Jun 2004

Other

Other	Multiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics
Country	Greece
City	Patras
Period	31.5.04 → 4.6.04

Fingerprint

Keywords

High velocity penetration
MCA method
Simulation

ASJC Scopus subject areas

Engineering(all)

Cite this

Chertov, M. A., Smolin, A. Y., Shilko, E. V., Psakhie, S. G., Chen, K., & Huan, D. (2004). Simulation of complex plane targets penetration by long rod using MCA method. In G. C. Sih, T. B. Kermanidis, & S. G. Pantelakis (Eds.), Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics (pp. 307-311)

Simulation of complex plane targets penetration by long rod using MCA method. / Chertov, M. A.; Smolin, A. Yu; Shilko, E. V.; Psakhie, S. G.; Chen, Ke; Huan, Dewu.

Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. ed. / G.C. Sih; T.B. Kermanidis; S.G. Pantelakis. 2004. p. 307-311.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Chertov, MA, Smolin, AY, Shilko, EV, Psakhie, SG, Chen, K & Huan, D 2004, Simulation of complex plane targets penetration by long rod using MCA method. in GC Sih, TB Kermanidis & SG Pantelakis (eds), Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. pp. 307-311, Multiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics, Patras, Greece, 31.5.04.

Chertov MA, Smolin AY, Shilko EV, Psakhie SG, Chen K, Huan D. Simulation of complex plane targets penetration by long rod using MCA method. In Sih GC, Kermanidis TB, Pantelakis SG, editors, Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. 2004. p. 307-311

Chertov, M. A. ; Smolin, A. Yu ; Shilko, E. V. ; Psakhie, S. G. ; Chen, Ke ; Huan, Dewu. / Simulation of complex plane targets penetration by long rod using MCA method. Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics. editor / G.C. Sih ; T.B. Kermanidis ; S.G. Pantelakis. 2004. pp. 307-311

@inproceedings{47cfe06b7c9d482085eeccc9c23fc87b,

title = "Simulation of complex plane targets penetration by long rod using MCA method",

abstract = "In the present paper the modified MCA method is applied to simulation of finite thickness steel plate penetration by long tungsten alloy rod. The influence of such parameters as impact velocities and plate thickness on penetration process pattern is studied. The influence of the nutation angle is not considered, only normal impact is considered. The dependences of final velocity and rod's length as functions of impact velocity and plate thickness are presented. The calculated curves and overall behavior of simulated system demonstrated sufficient compliance with the experimental data, which proves that the MCA method is now applicable to a wider range of computational problems.",

keywords = "High velocity penetration, MCA method, Simulation",

author = "Chertov, {M. A.} and Smolin, {A. Yu} and Shilko, {E. V.} and Psakhie, {S. G.} and Ke Chen and Dewu Huan",

year = "2004",

language = "English",

isbn = "960881040X",

pages = "307--311",

editor = "G.C. Sih and T.B. Kermanidis and S.G. Pantelakis",

booktitle = "Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics",

note = "Multiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics ; Conference date: 31-05-2004 Through 04-06-2004",

}

TY - GEN

T1 - Simulation of complex plane targets penetration by long rod using MCA method

AU - Chertov, M. A.

AU - Smolin, A. Yu

AU - Shilko, E. V.

AU - Psakhie, S. G.

AU - Chen, Ke

AU - Huan, Dewu

PY - 2004

Y1 - 2004

N2 - In the present paper the modified MCA method is applied to simulation of finite thickness steel plate penetration by long tungsten alloy rod. The influence of such parameters as impact velocities and plate thickness on penetration process pattern is studied. The influence of the nutation angle is not considered, only normal impact is considered. The dependences of final velocity and rod's length as functions of impact velocity and plate thickness are presented. The calculated curves and overall behavior of simulated system demonstrated sufficient compliance with the experimental data, which proves that the MCA method is now applicable to a wider range of computational problems.

AB - In the present paper the modified MCA method is applied to simulation of finite thickness steel plate penetration by long tungsten alloy rod. The influence of such parameters as impact velocities and plate thickness on penetration process pattern is studied. The influence of the nutation angle is not considered, only normal impact is considered. The dependences of final velocity and rod's length as functions of impact velocity and plate thickness are presented. The calculated curves and overall behavior of simulated system demonstrated sufficient compliance with the experimental data, which proves that the MCA method is now applicable to a wider range of computational problems.

KW - High velocity penetration

KW - MCA method

KW - Simulation

UR - http://www.scopus.com/inward/record.url?scp=6344243201&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=6344243201&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:6344243201

SN - 960881040X

SP - 307

EP - 311

BT - Multiscaling in Applied Science and Emerging Technology, Fundamentals and Applications in Mesomechanics: Proceedings of the Sixth International Conference for Mesomechanics

A2 - Sih, G.C.

A2 - Kermanidis, T.B.

A2 - Pantelakis, S.G.

T2 - Multiscaling in Applied Science and Emerging Technology; Fundamentals and Applications in Mesomechanics:Proceedings of the Sixth International Conference for Mesomechanics

Y2 - 31 May 2004 through 4 June 2004

ER -