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Influence of velocity nonuniformity in a medium on the penetration of cumulative jets and extended flyer plates

Obstacle materials into which plane cumulative jets with an initial impact velocity of 2.5–3.5 km/s penetrate are studied metallographically. The results suggest that penetration takes place in the nonuniform velocity field of the medium. A refined hydrodynamic model for the fast penetration of jets...

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Published in:	Technical physics 2010-10, Vol.55 (10), p.1524-1529
Main Authors:	Savenkov, G. G., Meshcheryakov, Yu. I., Barakhtin, B. K.
Format:	Article
Language:	English
Subjects:	Classical and Continuum Physics Experimental Instruments and Technique Physics Physics and Astronomy
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description	Obstacle materials into which plane cumulative jets with an initial impact velocity of 2.5–3.5 km/s penetrate are studied metallographically. The results suggest that penetration takes place in the nonuniform velocity field of the medium. A refined hydrodynamic model for the fast penetration of jets and flyer plates is put forward and verified experimentally.
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subjects	Classical and Continuum Physics Experimental Instruments and Technique Physics Physics and Astronomy
title	Influence of velocity nonuniformity in a medium on the penetration of cumulative jets and extended flyer plates
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