Program overview

WEDNESDAY MORNING, 30 JULY 1997

L1.01 SPH Simulation of High Density Hydrogen Compression

R. Ferrel, Van D. Romero (Energetic Materials Research and Testing Center, New Mexico Tech, Socorro, NM 87801)

L1.02 Modifications of SPH method for the problems with large deformations

Denis Shishov (HEDRC RAS), V.E. Fortov, O.Yu. Vorobiev (IChPh RAS)

L1.03 Calculation of Shock Compression Data and Phase Diagram for Chlorine Substituted Methane Compounds

V.V. Dremov, D.G. Modestov (Russian Federation Nuclear Center-VNIITF)

L1.04 Physical-Chemical Simulating Model for Dence Fluids Properties

I.A. Sokolova, V.E. Lusternik (Laboratory of Physical-Chemical Properties of Matters, Institute for Mathematical Modeling RAN)

L1.05 An Analytic Solution to a Driven Interface Problem

J.E. Hammerberg, J.E. Pepin (Los Alamos National Laboratory)

L1.06 Penetration of Tungsten-Alloy rods into composite ceramic targets:Experiments and 2-D Simulations

Z. Rosenberg, E. Dekel (RAFAEL P.O.Box 2250,Haifa,Israel), V. Hohler, A.J. Stilp, K. Weber (EMI,D-79104 Freiburg, Germany)

L1.07 A Discreet Impact Model For Effect Of Yaw Angle On Penetration By = Rod Projectiles

Minhyung Lee, Stephan J. Bless (IAT-UT)

L1.08 Failure wave structure in brittle materials with initial porosity

V.I. Kondaurov (HEDRC RAS)

L1.09 Modeling Polymorphic Transformations of Quartzite in Dynamic Processes

A.V. Petrovtsev, V.A. Bychenkov, Yu.N. Zhugin, G.V. Kovalenko (RFNC-VNIITF, Snezhinsk, Chelyabinsk region Russia)

L1.10 Mathematical Model of Porous Medium Dynamics

P.D. Gerschuk, A.T. Sapozhnikov (Russian Federation Nuclear Center-VNIITF)

L1.11 Shock initiation of detonation in nitromethane.

Blandine Leal (DGA/Centre d'Etudes de Gramat), Henri-Noel Presles (ENSMA/Laboratoire de Combustion et de Ditonique), Gerard Baudin (DGA/Centre d'Etudes de Gramat)

L1.12 Computer-aided design of stable high-energy compounds from the TACOT family

Marina Molchanova, Elena Arnautova, Tatyana Pivina, Nikolai Zefirov (Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences, Moscow, Russia)

L1.13 PETN Particles in a Gas-Detonation Wave

Vladimir Grigoriev, Leonid Lukyanchikov, Eduard Pruuel (Lavrentyev Institute of Hydrodynamics, Novosibirsk, Russia)

L1.14 Explosion Systems Based on High Explosives Containing High Modular Ceramic Tubes

I.A. Balagansky, V.V. Naumov (Novosibirsk State Technical University), I.F. Kobilkin, N.I. Nosenko (Bauman Moscow State Technical University)

L1.15 On the Possible of Gas Detonation Explosion of BaO2/Zr Powder Mixture

E.A. Dobler, A.N. Gryadunov, A.S. Shteinberg (Institute of Structural Makrokinetics of Russian Academy of Scienses)

L1.16 Nanostructure Formation by Dynamic Densification and Recrystallization of Amorphous Ti-Si Alloy

P.J. Counihan, N.N. Thadhani (School of Materials Science and Engineering, Georgia Tech, Atlanta, GA 30332-0245)

L1.17 A New Apparatus for Direct Transformation From hBN to cBN

Yutaka Kuroyama (NOF Corporation, Aichi Works, Taketoyo Plant,Japan), Kenji Itoh (NOF Corporation, Aichi Works, Taketoyo Plant,Japan), Zhiyue Liu, Masahiro Fujita, Shigeru Itoh (Department of Mechanical Engineering, Faculty of Engineering, Kumamoto University,Japan)

L1.18 Dynamic Densification of Mo-Si Powder Compacts for Reactive Solid State Processing

K.S. Vandersall, N.N. Thadhani (Department of Materials Science and Engineering, Georgia Tech, Atlanta, GA 30332-0245)

L1.19 The Explosive Long Pulse Duration Loading of Mipolex Diamond Powder

A. Deribas, A. Shtertser (MATEM Co. Ltd.)

L1.20 Hypervelocity Penetration of High-Density Targets

A. A. Kozhushko, Pugachev, Sinani (Ioffe Phys.-Tech Institute of the Russian Academy of Sciences, St. Petersburg)

L1.21 Mathematical Simulation Of The Dynamics Of Non-homogeneous Detonation Chambers

P. Z. Lugovoy, V. F. Meish (Institute of Mechanics, National Academy of Sciences of the Ukraine, Kiev)

L1.22 Withdrawn

L1.23 The Hugoniot Elastic Limit Decay Limit

J.P. Billingsley (USAMICOM)

L1.24 Shock Temperatures of Soda Lime Glass Measured by an Optical Pyrometer

Takamichi Kobayashi, Toshimori Sekine, O. V. Fat'yanov, Eiichi Takazawa, Y.Q. Zhu (NIRIM)

L1.25 Simultaneous manganin gauge and VISAR measurements of shock wave profiles

Neil Bourne (Shock Physics, PCS, Cavendish Laboratory, Madingley Road, Cambridge, CB3 0HE, UK.), Zvi Rosenberg (Rafael, PO Box 2250, Haifa, Israel.)

L1.26 Magnetic Gauge Instrumentation on the LANL Gas-Driven Two-Stage Gun

R. R. Alcon, S. A. Sheffield, A. R. Martinez, R. L. Gustavsen (Los Alamos National Laboratory)

L1.27 Gas Gun Modification for Achieving Ultra-Low Velocities

Paul Bellamy, Peter T. Bartkowski, J. Michael Boteler (U.S. Army Research Laboratory, APG, MD)

L1.28 Using reverberation techniques to study shock loaded soda-line glas.

A. Ginzburg, Z. Rosenberg (RAFAEL P.O.Box 2250,Haifa,Israel)

L1.29 Analysis of the degradation mechanisms in an impacted ceramic

Christophe Denoual, Charles Cottenot (DGA/DCE/CREA/MCS), Francois Hild (LMT ENS Cachan/CNRS/Université Paris VI)

L1.30 Preliminary Direct Laser Drive Absolute Equation of State Measurments of Beryllium Using the Nova Facility

G. R. Bennett, R. E. Chrien, J. M. Wallace (Los Alamos National Laboratory)

L1.31 Computer Simulation Of Shock-Wave Propagation In Anisotropic Tectonic Structures

V. I. Gouliaev, P. Z. Lugovoy (Institute of Mechanics, National Academy of Sciences of the Ukraine, Kiev)

L1.32 The twofold quartz shock adiabat under pressures of 55-150 GPa

Aleksey Borschevsky, Michael Gorshkov, Alexander Tarasov (RFNC-VNIITF, Snezhinsk, Russia)

L1.33 Light Flashes Caused by Impacts against the Moon

I.V. Nemtchinov, V.V. Shuvalov, N.A. Artemieva, B.A. Ivanov, I.B. Kosarev, I.A. Trubetskaya (IDG RAS)

L1.34 Quasi-Isentropic Compression of Liquid Xenon up to the Density of 20 g/cm^3 Under the Pressure of 700 GPa.

V.D. Urlin, M.A. Mochalov, O.L. Mikhailova (Russian Federal Nuclear Center --- VNIIEF)

L1.35 Distribution of Mass In Debris Clouds

Andrew J. Piekutowski (University of Dayton Research Institute)

L1.36 Shock Wave Equation of State and Shock-induced Phase Transition of Halloysite

Zizheng Gong, Yan By, Hua Tan, Fuqian Jing (Laboratory for Shock Wave and Detonation Physics Research,Insititute of Floud Physics, P. R. China)

L1.37 An Application of Nonlinear Optimization to Material EOS Parametrization

Hou Man Jiang, Ruo Qi Zhang (Appl. Phy. Dep.,NUDT), Shou Qi Zhang (China Academy of Engineering Physics)

L1.38 Analysis of Temperature Influence on the Dynamic Fracture of Metals.

A.A. Bogach (Institute of Chemical Physics in Chernogolovka, Moscow region, 142432 Russia)

L1.39 Investigations of Mechanic Properties of Ceramic Using Axis- Symmetrical Shock Waves

S.N. Dudin, G.I. Kanel, S.V. Razorenov , A.V. Utkin, V.B. Mintsev (Institute of Chemical Physics in Chernogolovka of Russian Academy of Sciences), S. Bless, C.H.M. Simha (Institute for Advanced technology, the University of Texas at Austin)

L1.40 Mechanical Properties of Preshocked Sapphire Driver.

D.N. Nikolaev, A.S. Filimonov, V.E. Fortov, I.V. Lomonosov, V.Ya. Ternovoi (Institute of Chemical Physics in Chernogolovka, Moscow region, 142432 Russia)

L1.41 Shock Response of an Unidirectional Composite at Various Orientation of Fibers.

Serge Bordzilovskii, Serge Karakhanov, Lev Merzhievskii (Lavrentyev Institute of Hydrodynamics)

L1.42 Investigation of Tin Thermodynamics in Near Critical Point Region.

V.Ya. Ternovoi, A.S. Filimonov, V.E. Fortov, I.V. Lomonosov, D.N. Nikolaev, A.A. Pyalling (Institute of Chemical Physics in Chernogolovka, Moscow region, 142432, Russia)

L1.43 A critical phenomenon for the spall strength in aluminum and copper at strain rates of about 10^7 s^-1

L. Moshe, A. Ludmirsky, E. Dekel, Z. Henis, I.D. Goldberg, S. Eliezer (Plasma Physics Department, Soreq, NRC, Yavne 81800, Israel)

L1.44 High Strain Rate Response of Tungsten Heavy Alloy

S.N. Chang (Agency for Defense Development)

L1.45 Prediction of Fragmental Number and Size Distribution

Lin Zhang, Xiaogang Jin (Laboratory for Shock Wave and Detonation Physics Research,Insititute of Floud Physics, P. R. China)

L1.46 Numerical Modeling of Shock Waves from An Underwater Explosion

J.H. Kuk, J. Lee, S-y. Song, Y.S. Cho (Agency for Defense Development, Taejon, Korea)