Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate
Само за регистроване кориснике
2022
Конференцијски прилог (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
In the present study, penetration of a 6.5 mm Grendel armor-piercing projectile with a front tungsten carbidecobalt core and rear lead-antimony core into the 8.5 mm PROTAC 500 high hardness armor steel plate was analyzed both experimentally and numerically. Ballistic tests were performed in which the projectile’s initial velocity had the value of 740 m/s. Experimental results have shown that the partial perforation with the projectile embedment was the most frequent outcome. Two-dimensional axisymmetric non-linear numerical model corresponding to the performed tests was developed in ANSYS AUTODYN software using the mesh based Lagrangian technique. Johnson-Cook strength and failure models were employed for the characterization of the material behavior. Developed numerical model was verified against the experimental results and the influence of the projectile’s impact velocity on the parameters of the penetration was investigated. Rear lead alloy core was found to be able to provide sign...ificant enhancement of the projectile’s efficiency.
Кључне речи:
terminal ballistics / armor-piercing projectile / tungsten carbide-cobalt / numerical analysisИзвор:
10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade, 2022, 161/61-Издавач:
- Belgrade : Military Technical Institute
Колекције
Институција/група
Mašinski fakultetTY - CONF AU - Đurović, Radovan AU - Elek, Predrag AU - Marković, Miloš AU - Jevtić, Dejan AU - Erčević, Mihailo PY - 2022 UR - https://machinery.mas.bg.ac.rs/handle/123456789/4997 AB - In the present study, penetration of a 6.5 mm Grendel armor-piercing projectile with a front tungsten carbidecobalt core and rear lead-antimony core into the 8.5 mm PROTAC 500 high hardness armor steel plate was analyzed both experimentally and numerically. Ballistic tests were performed in which the projectile’s initial velocity had the value of 740 m/s. Experimental results have shown that the partial perforation with the projectile embedment was the most frequent outcome. Two-dimensional axisymmetric non-linear numerical model corresponding to the performed tests was developed in ANSYS AUTODYN software using the mesh based Lagrangian technique. Johnson-Cook strength and failure models were employed for the characterization of the material behavior. Developed numerical model was verified against the experimental results and the influence of the projectile’s impact velocity on the parameters of the penetration was investigated. Rear lead alloy core was found to be able to provide significant enhancement of the projectile’s efficiency. PB - Belgrade : Military Technical Institute C3 - 10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade T1 - Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate SP - 161/61 UR - https://hdl.handle.net/21.15107/rcub_machinery_4997 ER -
@conference{ author = "Đurović, Radovan and Elek, Predrag and Marković, Miloš and Jevtić, Dejan and Erčević, Mihailo", year = "2022", abstract = "In the present study, penetration of a 6.5 mm Grendel armor-piercing projectile with a front tungsten carbidecobalt core and rear lead-antimony core into the 8.5 mm PROTAC 500 high hardness armor steel plate was analyzed both experimentally and numerically. Ballistic tests were performed in which the projectile’s initial velocity had the value of 740 m/s. Experimental results have shown that the partial perforation with the projectile embedment was the most frequent outcome. Two-dimensional axisymmetric non-linear numerical model corresponding to the performed tests was developed in ANSYS AUTODYN software using the mesh based Lagrangian technique. Johnson-Cook strength and failure models were employed for the characterization of the material behavior. Developed numerical model was verified against the experimental results and the influence of the projectile’s impact velocity on the parameters of the penetration was investigated. Rear lead alloy core was found to be able to provide significant enhancement of the projectile’s efficiency.", publisher = "Belgrade : Military Technical Institute", journal = "10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade", title = "Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate", pages = "161/61", url = "https://hdl.handle.net/21.15107/rcub_machinery_4997" }
Đurović, R., Elek, P., Marković, M., Jevtić, D.,& Erčević, M.. (2022). Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate. in 10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade Belgrade : Military Technical Institute., 161/61. https://hdl.handle.net/21.15107/rcub_machinery_4997
Đurović R, Elek P, Marković M, Jevtić D, Erčević M. Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate. in 10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade. 2022;:161/61. https://hdl.handle.net/21.15107/rcub_machinery_4997 .
Đurović, Radovan, Elek, Predrag, Marković, Miloš, Jevtić, Dejan, Erčević, Mihailo, "Numerical analysis of the tungsten carbide-cobalt cored bullet penetrating the high-hardness steel plate" in 10th International Scientific Conference on Defensive Technologies – OTEH 2022, Belgrade (2022):161/61, https://hdl.handle.net/21.15107/rcub_machinery_4997 .