Simulation analysis of the influence of steel bar on kinetic projectile penetrating into reinforced concrete

Jian Bing Men; Jian Wei Jiang; Shu You Wang

Simulation analysis of the influence of steel bar on kinetic projectile penetrating into reinforced concrete

Jian Bing Men^*, Jian Wei Jiang, Shu You Wang

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

How the steel bar location and ratio per cube in reinforced concrete target influence the penetration process of kinetic projectile are discussed. Simulation model of kinetic projectile penetrating reinforced concrete was built by a non-linear code AUTODYN-3D. The penetration depth, penetration overloading and damage condition of target are achieved through computation of projectile penetrating in different locations and different steel bar ratios. Research results indicate that projectile penetration depth was mostly affected by the cross steel bar, while increasing the steel bar ratio per cube can improve the capability of target against penetration.

Original language	English
Pages (from-to)	46-49
Number of pages	4
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	29
Issue number	SUPPL. 1
Publication status	Published - Apr 2009

Keywords

Kinetic projectile
Numerical simulation
Penetration
Reinforced concrete

Cite this

Men, J. B., Jiang, J. W., & Wang, S. Y. (2009). Simulation analysis of the influence of steel bar on kinetic projectile penetrating into reinforced concrete. Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology, 29(SUPPL. 1), 46-49.

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abstract = "How the steel bar location and ratio per cube in reinforced concrete target influence the penetration process of kinetic projectile are discussed. Simulation model of kinetic projectile penetrating reinforced concrete was built by a non-linear code AUTODYN-3D. The penetration depth, penetration overloading and damage condition of target are achieved through computation of projectile penetrating in different locations and different steel bar ratios. Research results indicate that projectile penetration depth was mostly affected by the cross steel bar, while increasing the steel bar ratio per cube can improve the capability of target against penetration.",

keywords = "Kinetic projectile, Numerical simulation, Penetration, Reinforced concrete",

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N2 - How the steel bar location and ratio per cube in reinforced concrete target influence the penetration process of kinetic projectile are discussed. Simulation model of kinetic projectile penetrating reinforced concrete was built by a non-linear code AUTODYN-3D. The penetration depth, penetration overloading and damage condition of target are achieved through computation of projectile penetrating in different locations and different steel bar ratios. Research results indicate that projectile penetration depth was mostly affected by the cross steel bar, while increasing the steel bar ratio per cube can improve the capability of target against penetration.

AB - How the steel bar location and ratio per cube in reinforced concrete target influence the penetration process of kinetic projectile are discussed. Simulation model of kinetic projectile penetrating reinforced concrete was built by a non-linear code AUTODYN-3D. The penetration depth, penetration overloading and damage condition of target are achieved through computation of projectile penetrating in different locations and different steel bar ratios. Research results indicate that projectile penetration depth was mostly affected by the cross steel bar, while increasing the steel bar ratio per cube can improve the capability of target against penetration.

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KW - Numerical simulation

KW - Penetration

KW - Reinforced concrete

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ER -

Simulation analysis of the influence of steel bar on kinetic projectile penetrating into reinforced concrete

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Keywords

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