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Impact response of sandwich plates with a pyramidal lattice core
Authors:Christian J Yungwirth  Haydn NG Wadley  John H O’Connor  Alan J Zakraysek  Vikram S Deshpande
Affiliation:1. Department of Material Science & Engineering, School of Engineering and Applied Science, University of Virginia, Charlottesville, VA 22903, USA;2. Naval Surface Warfare Center, Indian Head, MD 20640, USA;3. Department of Engineering, Cambridge University, Trumpington Street, Cambridge CB2 1PZ, UK
Abstract:The ballistic performance edge clamped 304 stainless-steel sandwich panels has been measured by impacting the plates at mid-span with a spherical steel projectile whose impact velocity ranged from 250 to 1300 m s−1. The sandwich plates comprised two identical face sheets and a pyramidal truss core: the diameter of the impacting spherical projectile was approximately half the 25 mm truss core cell size. The ballistic behavior has been compared with monolithic 304 stainless-steel plates of approximately equal areal mass and with high-strength aluminum alloy (6061-T6) sandwich panels of identical geometry. The ballistic performance is quantified in terms of the entry and exit projectile velocities while high-speed photography is used to investigate the dynamic deformation and failure mechanisms. The stainless-steel sandwich panels were found to have a much higher ballistic resistance than the 6061-T6 aluminum alloy panels on a per volume basis but the ballistic energy absorption of the aluminum structures was slightly higher on a per unit mass basis. The ballistic performance of the monolithic and sandwich panels is almost identical though the failure mechanics of these two types of structures are rather different. At high impact velocities, the monolithic plates fail by ductile hole enlargement. By contrast, only the proximal face sheet of the sandwich plate undergoes this type of failure. The distal face sheet fails by a petalling mode over the entire velocity range investigated here. Given the substantially higher blast resistance of sandwich plates compared to monolithic plates of equal mass, we conclude that sandwich plates display a potential to outperform monolithic plates in multi-functional applications that combine blast resistance and ballistic performance.
Keywords:Impact  Pyramidal truss  Air shock waves  Energy absorption  Ballistic performance
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