Abstract
Experimental and theoretical investigations on the failure behaviors of projectile during high-speed impact into concrete slabs were performed in this study. The ogive-nose projectiles after impact experiments were recovered and their microstructures were observed by scanning electron microscope and metallographic microscope. Mass abrasion and nose blunting are the typical failure models of steel projectile. Furthermore, thermal melting and cutting are the two main failure mechanisms. Based on the microscopic experimental results, a theoretical model of ogive-nose projectile subjected to impact loading considering the melting and cutting mechanisms was proposed. A modified cap model is introduced for describing the failure behavior of concrete targets, and then the dynamic cavity expansion theory is used to determine the resistance of projectiles during penetration. Besides, combining with the two-dimensional heat conduction equation and abrasive wear theory, the two main abrasion mechanisms of melting and cutting are included in the proposed model, which breaks through the framework of previous abrasion models with single abrasion mechanism. The predicted results of the present abrasion model are in good agreement with the experimental data, which indicates that the proposed model can effectively predict the failure behavior and penetration performance parameters of high-speed projectiles during penetration into concrete targets, such as mass loss, nose blunting, and depth of penetration.
Highlights
The dynamic responses and failure models of metal material under high pressure and high strain are extremely complex
This paper focuses on the failure behavior of metal projectile during high-speed impact into concrete slabs
Extensive impact experiments were conducted and indicated that the projectiles occurred obvious structural failure, such as nose blunting and mass abrasion, during high-speed impact experiments and the mass abrasion mainly occurred in projectile nose [12,13,14,15,16,17,18,19]
Summary
The dynamic responses and failure models of metal material under high pressure and high strain are extremely complex. The failure analysis of metal material subjected to impact loading is intractable [1,2,3,4,5]. This paper focuses on the failure behavior of metal projectile during high-speed impact into concrete slabs. Extensive impact experiments were conducted and indicated that the projectiles occurred obvious structural failure, such as nose blunting and mass abrasion, during high-speed impact experiments and the mass abrasion mainly occurred in projectile nose [12,13,14,15,16,17,18,19]. For the safety of structural members and the improvement of penetration performance, a more reasonable understanding of failure behavior of projectile when subjected to impact loading, which produces large inelastic deformations, is important
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