Mechanism of superdeep penetration of particles into a metal target

A physical-mathematical model of superdeep penetration of particles into metal targets taking into account the strength properties of target material is proposed. Based on this model, the problem of superdeep penetration of tungsten particles into a steel target is solved for the first time.

Mathematical simulation of impact-induced deep penetration of a rigid spherical particle into an elastic-plastic medium is performed; the law of particle motion and the distance covered by the particle are determined. In solving the boundary-value problem, the principle of virtual velocities and str

Ten years investigation of the super-deep penetration problem allows one to understand the main features of the effect and prepare the foundation for a model that can describe the process. The paper is devoted to the creation of such a model taking account of real conditions of super-deep penetratio

The penetration of metal rods into semi-infinite metal targets has been investigated experimentally at velocities up to 0.3 cm//zsec. The rods were composed of Au, Pb, Cu, Sn, A1, and Mg ; the targets were aluminum. Results are compared with predictions from the hydrodynamic theory of jet penetratio