Open AccessSpall wave-profile and shock-recovery experiments on depleted uranium
Author(s) -
R. S. Hixson,
J. E. Vorthman,
R. L. Gustavsen,
A. K. Zurek,
W. R. Thissell,
D. L. Tonks
Publication year - 1997
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/548730
Subject(s) - spall , materials science , shock wave , spallation , shock (circulatory) , uranium , impurity , stress wave , interferometry , stress (linguistics) , composite material , metallurgy , optics , mechanics , chemistry , neutron , nuclear physics , physics , medicine , linguistics , philosophy , organic chemistry
Depleted Uranium of two different purity levels has been studied to determine spall strength under shock wave loading. A high purity material with approximately 30 ppm of carbon impurities was shock compressed to two different stress levels, 37 and 53 kbar. The second material studied was uranium with about 300 ppm of carbon impurities. This material was shock loaded to three different final stress level, 37, 53, and 81 kbar. Two experimental techniques were used in this work. First, time-resolved free surface particle velocity measurements were done using a VISAR velocity interferometer. The second experimental technique used was soft recovery of samples after shock loading. These two experimental techniques will be briefly described here and VISAR results will be shown. Results of the spall recovery experiments and subsequent metallurgical analyses are described in another paper in these proceedings
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