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Effects of layer stacking order on the V(50) velocity of a two-layered hybrid armor system

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Title Effects of layer stacking order on the V(50) velocity of a two-layered hybrid armor system
 
Creator PORWAL, PK
PHOENIX, SL
 
Subject ballistic impact
analytical-model
simulation
behavior
multilayered hybrid armor systems
stacking order
thermal effects
layer interference
v(50) velocity
impact velocity versus residual velocity
 
Description We develop a theoretical and computational model to investigate the ballistic response of a hybrid two-layered flexible armor system. In particular, we study the effects of stacking order of the two fibrous layers, which have distinctly different mechanical properties, on the V(50) limit velocity. A system consisting of Kevlar and Spectra fabrics is studied in detail. For this system, previous experimental results of Cunniff show nearly a factor of two difference in the V(50) velocities for the two possible stacking orders. The new model presented here extends our previous multilayer model by directly addressing interference effects between the two layers, treated here using length and tension compatibility along the radial direction away from the projectile. The primary task is to calculate strains in the individual layers in the presence of constraining interference that forces the nested layers to have a common impact cone shape different from what would be generated by the impact if the layers were allowed to deform freely. We show that this interference, together with relative areal densities of the layers, have a significant effect on the strain evolution in the layers, particularly near the edge of the projectile where failure initiates. As observed experimentally by Cunniff, our model predicts a large decrease in the V(50) velocity of the hybrid armor system when Spectra is the strike layer. However, to achieve this reduction it is necessary to use a lowered normalization velocity in multilayered Spectra systems than the theoretical value obtained from basic fiber properties. Besides matching the experimental results of Cunniff, the model reveals many subtle transitions in the onset and effects of interference between the layers. Somewhat surprising and contrary to conventional wisdom is the observation that layer interference can sometimes be beneficial depending on the relative mechanical properties and areal densities of the two layers.
 
Publisher MATHEMATICAL SCIENCE PUBL
 
Date 2011-08-18T16:29:25Z
2011-12-26T12:55:49Z
2011-12-27T05:42:46Z
2011-08-18T16:29:25Z
2011-12-26T12:55:49Z
2011-12-27T05:42:46Z
2008
 
Type Article
 
Identifier JOURNAL OF MECHANICS OF MATERIALS AND STRUCTURES, 3(4), 627-639
1559-3959
http://dspace.library.iitb.ac.in/xmlui/handle/10054/10068
http://hdl.handle.net/10054/10068
 
Language en