Normal perforation of reinforced concrete target by rigid projectile |
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Authors: | XW Chen XL Li FL Huang HJ Wu YZ Chen |
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Affiliation: | 1. Institute of Structural Mechanics, China Academy of Engineering Physics, P.O. Box 919-414, Mianyang City, Sichuan 621900, PR China;2. State Key Lab of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100088, PR China |
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Abstract: | An analytical model on the normal perforation of reinforced concrete slabs is constructed in the present paper. The effect of reinforcing bars is further hybridized in a general three-stage model consisting of initial crater, tunnelling and shear plugging. Besides three dimensionless numbers, i.e., the impact function I, the geometry function of projectile N and the dimensionless thickness of concrete target χ, which are employed to predict the ballistic performance of perforation of concrete slabs, the reinforcement ratio ρs of concrete (or area density) and the tensile strength fs of reinforcing bars are considered as the other main factors influencing the perforation process. Simpler solutions of ballistic performances of normal perforation of reinforced concrete slabs are formulated in the present paper. Theoretical predictions agree well with individual published experimental data and have a higher degree of accuracy than the model suggested by Dancygier Effect of reinforcement ratio on the resistance of reinforced concrete to hard projectile impact. Nucl Eng Des 1997;172:233–45]. |
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Keywords: | Reinforced concrete Rigid projectile Perforation Reinforcement ratio Tensile strength |
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