On the influence of constitutive relation in projectile impact of steel plates |
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Authors: | S Dey T Børvik OS Hopperstad M Langseth |
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Affiliation: | 1. Structural Impact Laboratory (SIMLab), Department of Structural Engineering, Norwegian University of Science and Technology, Rich. Birkelands vei 1A, No-7491 Trondheim, Norway;2. Norwegian Defence Estates Agency, Research & Development Section, PB 405, Sentrum, No-0103 Oslo, Norway |
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Abstract: | In this paper the influence of constitutive relation has been studied in numerical simulations of the perforation of 12-mm thick Weldox 460 E steel plates impacted by blunt-nosed projectiles in the sub-ordinance velocity regime. A modified version of the well-known and much used constitutive relation proposed by Johnson-Cook and both the bcc- and hcp-version of the Zerilli-Armstrong constitutive relation were combined with the Johnson-Cook fracture criterion. These models were implemented as user-defined material models in the non-linear finite element code LS-DYNA. Identification procedures have been proposed, and the different models were calibrated and validated for the target material using available experimental data obtained from tensile tests where the effects of strain rate, temperature and stress triaxiality were taken into account. Perforation tests carried out in a compressed gas gun on 12-mm-thick circular Weldox 460 E steel plates were then used as base in a validation study of plate perforation using LS-DYNA and the proposed constitutive relations. The numerical study indicated that the physical mechanisms during perforation can be qualitatively well predicted by all constitutive relations, but quantitatively more severe differences appear. The reasons for this are discussed in some detail. It was concluded that for practical applications, the Johnson-Cook constitutive relation and fracture criterion seems to be a good choice for this particular problem and excellent agreement with the experimental results of projectile impact on steel plates were obtained under the conditions investigated. |
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Keywords: | Elastic&ndash viscoplastic material High-strength steel Impact testing Ballistic penetration Finite element simulations |
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