Isentropic compression experiments (ICE) were performed on a variety of high explosives. The samples were dynamically loaded by Sandia's Z-accelerator with a ramp compression wave of 300 ns rise time and peak stress of 100-350 kbar. Sample/window interface velocities were recorded with VISAR. Experiments were performed on LX04 to obtain the stress-strain relation using a backward integration technique. Experiments were similarly performed on LX17 and the results compared to hydrodynamics calculations that used a reactive flow equation of state. Recent experiments were also conducted on single crystal HMX with the aim of detecting the phase transition believed to occur at …
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Isentropic compression experiments (ICE) were performed on a variety of high explosives. The samples were dynamically loaded by Sandia's Z-accelerator with a ramp compression wave of 300 ns rise time and peak stress of 100-350 kbar. Sample/window interface velocities were recorded with VISAR. Experiments were performed on LX04 to obtain the stress-strain relation using a backward integration technique. Experiments were similarly performed on LX17 and the results compared to hydrodynamics calculations that used a reactive flow equation of state. Recent experiments were also conducted on single crystal HMX with the aim of detecting the phase transition believed to occur at 270 kbar.
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Reisman, D B; Forbes, J; Tarver, C M; Garcia, F; Hayes, D & Furnish, M.Isentropic Compression of High Explosives with the Z Accelerator,
article,
July 3, 2002;
Livermore, California.
(https://digital.library.unt.edu/ark:/67531/metadc1407902/:
accessed May 24, 2024),
University of North Texas Libraries, UNT Digital Library, https://digital.library.unt.edu;
crediting UNT Libraries Government Documents Department.