The penetration and ricochet of ogive-nosed rigid projectiles obliquely impacting metallic targets

Abstract: A large number of 3D numerical simulations were performed in order to follow the trajectory changes of rigid CRH3 ogive-nosed projectiles, impacting semi-infinite metallic targets at various obliquities. These trajectory changes are shown to be related to the threshold ricochet angles of the projectile/target pairs. These threshold angles are the impact obliquities where the projectiles end up moving in a path parallel to the target’s face. They were found to depend on a non-dimensional entity which is equal t… Show more

“…The erosion parameter for the target was set at 1.5, which was shown in Rosenberg et al (2020) to be high enough to guarantee numeric convergence. More details about the computation scheme, such as the contact algorithm, mesh type, and mesh convergence, can be found in Vayig and Rosenberg (2021). One can find there that the Lagrangian approach is capable to replicate the underling mechanisms at high impact velocities, which result in large deformations in the target.…”

More on the penetration of spherical-nosed rigid projectiles into metallic targets

“…The erosion parameter for the target was set at 1.5, which was shown in Rosenberg et al (2020) to be high enough to guarantee numeric convergence. More details about the computation scheme, such as the contact algorithm, mesh type, and mesh convergence, can be found in Vayig and Rosenberg (2021). One can find there that the Lagrangian approach is capable to replicate the underling mechanisms at high impact velocities, which result in large deformations in the target.…”

More on the penetration of spherical-nosed rigid projectiles into metallic targets

A Numerical Study on the Oblique Penetration of Spherical-Nosed Rigid Projectiles into Semi-Infinite Metallic Targets

Trajectory and Ricochet Dependencies on the Center of Mass Location of Rigid Ogive-Nosed Projectiles Impacting Metallic Targets at Non-Normal Conditions