Abstract
The paper provides a 3D finite element simulation to investigate the fracture of low-anisotropy aluminium alloy 2024 loaded by a steel impactor at a velocity of 200 and 600 m/s. For aluminium alloy 2024 a failure criterion in terms of ultimate plastic strains is used taking into account the elastic, plastic, and strength anisotropy of the target material. The simulation results, presented as cross-sectional fracture distributions, demonstrate that increasing the impact velocity results in additional fracture zones in anisotropic materials whose elastic, plastic, and strength properties are lowest in the in-plane direction compared to isotropic materials.
Notes
* The work was performed under Fundamental Research Programme of State Academies of Sciences for 2013–2020, projects III.23.1.2, III.23.2.2.