Experimentation, simulation and analysis of improvised explosive devices-explosively formed projectile

Abstract

Within the category of improvised explosive devices are those that form explosively formed projectiles which penetrate armor and armored systems, such as those used by insurgents against allied forces in operational areas. The purpose of this study is to reproduce and understand the behavior of these improvised explosive devices capable of generating high-velocity, high penetration projectiles. Understanding their behavior will allow for improved knowledge about them, and thus will allow us to more effectively combat them. Thus, the corresponding tests were carried out and the results were obtained from the first characterizations of explosively formed projectiles built using traditional methods, just as a terrorist would have built them. Along with this, numerical models were created for each test simulating the entire event from beginning to impact on the target, including all the intermediate steps. There were three configurations tested and simulated using the software of finite element analysis, LS-DYNA®, a 2-D asymmetric configuration with Lagrangian meshes. The results obtained by the model were compared with data obtained in the experimental tests, yielding a high precision between simulated and tested data. With the data obtained in this study it can be concluded that the improvised explosive devices -explosively formed projectiles is a serious threat. Generated models will allow us to know more about these weapons, to reduce costs in the fight against the threat of improvised explosive devices-explosively formed projectiles and therefore against terrorism with explosively formed projectiles, and to have a holistic approach to the threat and to reduce the cost of experimentation. Minimize the experimental expense