Fracture of Protective Structures from Heavy Reinforcing Cement During Interaction with High-velocity Impactor
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Published:2021-12
Issue:6
Volume:14
Page:779-786
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ISSN:1997-1397
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Container-title:Journal of Siberian Federal University. Mathematics & Physics
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language:
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Short-container-title:J. Sib. Fed. Univ., Math. phys.
Author:
Radchenko Pavel A., ,Batuev Stanislav P.,Radchenko Andrey V.
Abstract
In this work, the fracture of a reinforced concrete barrier made of heavy reinforced ce- ment is numerically simulated during normal interaction with a high-velocity titanium projectile. The projectile has the initial velocity 750 m/s. The problem of impact interaction is numerically solved by the finite element method in a three-dimensional formulation within a phenomenological framework of solid mechanics. Numerical modeling is carried out using an original EFES 2.0 software, which al- lows a straightforward parallelization of the numerical algorithm. Fracture of concrete is described by the Johnson-Holmquist model that includes the strain rate dependence of the compressive and tensile strengths of concrete. The computational algorithm takes into account the formation of discontinuities in the material and the fragmentation of bodies with the formation of new contact and free surfaces. The behavior of the projectile material is described by an elastoplastic medium. The limiting value of the plastic strain intensity is taken as a local fracture criterion for the projectile material. A detailed numerical analysis was performed to study the stress and strain dynamics of the reinforced concrete target and the effect of shock-wave processes on its fracture. The influence of reinforcement on the resistance of a heavy cement target to the penetration of a projectile has been investigated
Publisher
Siberian Federal University
Subject
General Physics and Astronomy,General Mathematics