Engineering Transactions, 59, 4, pp. 263–272, 2011
10.24423/engtrans.137.2011

DEVELOPMENT OF A NUMERICAL MODEL OF THE 9 MM PARABELLUM FMJ BULLET INCLUDING JACKET FAILURE

Ch. MARECHAL
Universite Lille Nord de France; UVHC, LAMIH; CNRS, FRE 3304

F. BRESSON
Institut National de Police Scientifique Laboratoire de Police Scientifique de Lille

G. HAUGOU
Universite Lille Nord de France; UVHC, LAMIH; CNRS, FRE 3304

Even though ballistic experiments are widely accepted as the only reliable way to probe terminal effects, we demonstrate that computer simulation can be a useful alternative. Par- ticularly, the high energy projectiles are seldom studied in the field of forensic sciences. That situation being favorable to computer simulation, a 3D finite element model of the worldwide- used 9 mm Parabellum bullet has been developed with Abaqus explicit software. A Johnson- Cook constitutive model, fed with the split Hopkinson pressure bar experimental parameters, accurately describes the materials’ behavior (lead and brass). Experiments were performed with a handgun and a hard steel plate target in order to discuss the reliability of the model. Accurate predictions about bullet deformation and failure were obtained without any post- calculation adjustment of parameters.
Keywords: ballistics, FEM, Johnson-Cook
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Copyright © Polish Academy of Sciences & Institute of Fundamental Technological Research (IPPT PAN).


DOI: 10.24423/engtrans.137.2011