Numerical simulation of thick target cratering based on the particle discrete element method

The finite element method is used to simulate the hypervelocity impact problems which relate the abnormal change of the location nodes due to the large deformation of materials and causes, resulting in element distortion too serious to compute. The particle discrete element method was used to simulate the hypervelocity impact of aluminum projectile with a diameter of 5 mm against a thin target and a thick target. This method overcomes a mesh distortion problem in the hypervelocity impact, and the rules of cratering on thick target were obtained. The rules of cratering are in accord with the results simulated by fluid dynamic method and test data. We proved that the particle discrete element can be used as a new kind of calculation method to simulate hypervelocity impact.