AI Article Synopsis
- The research tests a simplified method for estimating the resultant force from ballistic impacts where the projectile fragments but does not penetrate the target.
- This method aims to help assess military aircraft with ballistic protection through large-scale finite element simulations.
- Results indicate the method's effectiveness is contingent on meeting specific bullet-splash hypotheses, suggesting thorough experimental investigations are necessary for accurate evaluations.
Article Abstract
The study focuses on testing a simplified way of estimating the resultant force due to ballistic impacts resulting in a full fragmentation of the impactor with no penetration of the target. The method is intended to be useful for the parsimonious structural assessment of military aircrafts with integrated ballistic protection systems by means of large scale explicit finite element simulations. The research investigates the effectiveness of the method in allowing the prediction of the fields of plastic deformation collected by hard steel plates impacted by a wide range of semi-jacketed, monolithic, and full metal jacket .308 Winchester rifle bullets. The outcomes show the effectiveness of the method being strictly related to the full compliance of the considered cases with the bullet-splash hypotheses. The study therefore suggests the application of the load history approach only after careful experimental investigations on the specific impactor-target interactions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10254373 | PMC |
| http://dx.doi.org/10.3390/ma16113990 | DOI Listing |
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