@inproceedings{4a093f85c41340ab89a342c1ab50de3a,
title = "Perforation of aluminum plates with ogive-nose projectiles using axisymmetric smoothed particle hydrodynamics",
abstract = "The 2D axisymmetric smoothed particle hydrodynamics (ASPH) has been adopted to study the perforation of AA5083-H116 aluminum plates with ogive-nose hard steel projectiles. The deceleration history curves of the projectile by the ASPH were presented for three impact conditions. Impact vs. residual velocity curves were constructed and the ballistic limit velocity was determined. The computational residual velocities and the ballistic limit velocities from the ASPH agree well with available experimental data. The study shows that the ASPH is able to emulate the perforation of aluminum plates as observed in the experimental investigations of high velocity impact.",
keywords = "Aluminum plates, Axisymmetric smoothed particle hydrodynamics, High velocity impact, Ogive-nose projectiles, Perforation",
author = "Sun, \{Wei Hai\} and Ju, \{Gui Ling\} and Wang, \{Li Jun\} and Yang, \{Ban Quan\} and Pan, \{Jing Wen\}",
year = "2014",
doi = "10.4028/www.scientific.net/AMR.915-916.664",
language = "English",
isbn = "9783038350798",
series = "Advanced Materials Research",
publisher = "Trans Tech Publications",
pages = "664--667",
booktitle = "Advanced Engineering Research",
address = "Germany",
note = "2014 2nd International Forum on Mechanical and Material Engineering, IFMME 2014 ; Conference date: 08-03-2014 Through 09-03-2014",
}