活性横向增强弹靶后横向效应实验与数值模拟

To reveal the behind-plate enhanced lateral mechanism of reactive penetrator with enhanced lateral effect (PELE), the damage effect experiment of reactive PELE impacting steel plate is made to obtain the perforation damage of witness aluminum plate set behind the steel plate under the conditions of different front steel plate thicknesses. A two-step numerical simulation model of reactive PELE impact-induced deflagration reaction is developed based on the ignition growth model. The behind-plate enhanced lateral effect of reactive PELE impacting a steel target with a thickness of 6 - 20 mm at 780 m / s velocity is discussed by experiment and simulation. The damage effect of witness aluminum plate, filling reaction, wave interaction and jacket fragments dispersion are analyzed. The results show that the numerical simulation model can effectively simulate the deflagration reaction of reactive PELE impacting plate. The perforation dispersion on the witness plate significantly depends on the front steel plate thickness, the behind-plate enhanced lateral effect of the reactive PELE increases first and then decreases with the increase in the plate thickness, and the released energy of the reactive filling increases the maximum radial velocity of jacket fragments by more than 40% .