Program overview

TUESDAY MORNING, 29 JULY 1997

Session F1. Non-Ideal Explosives.

Tuesday morning, 08:00, CCA

08:00 F1.01 Non-Ideal Explosives
Erwin Anderson (NSWC)
08:30 F1.02 Modeling the detonation structure of heterogeneous explosives
Jean-Philippe Dionne, John H.S. Lee (McGill University)
08:45 F1.03 A Closed Water-Filled Cylinder for Characterizing Non-Ideal Explosives
Raafat Guirguis, Reid McKeown, John Kelley (Naval Surface Warfare Center, Indian Head, MD 20640-5035)
09:00 F1.04 Detonation in An Aluminized Explosive and Its Modeling
J. Lee, J.H. Kuk, S-y. Song, K.Y. Choi, J.W. Lee (Agency for Defense Development, Taejon, Korea)
09:15 F1.05 Shock Hugoniot Behavior of Mixed Phases with Widely Varying Shock Impedances
John Reaugh, Edward Lee (Lawrence Livermore National Laboratory)
09:30 F1.06 Blast Waves From Non-ideal Explosives
Van D. Romero, Pharis E. Williams (Energetic Materials Research and Testing Center, New Mexico Tech, Socorro, NM)

Session F2. Chemistry and Synthesis II: (Powder Compaction).

Tuesday morning, 08:00, 163C

08:00 F2.01 An Analysis of Shock Compression of Ti-Si Powder Mixtures Using Time-Resolved Measurements
R. Russell, M. Zhou, K.S. Vandersall, N.N. Thadhani (Georgia Tech, Atlanta, GA 30332-0245)
08:15 F2.02 Reaction Synthesis of Shock-Densified Titanium-Silicon Powder Mixtures
S.A. Namjoshi, N.N. Thadhani (School of Materials Science and Engineering, Georgia Tech, Atlanta, GA 30332-0245)
08:30 F2.03 Shock Compression of Aluminum and Iron-Oxide Powder Mixtures
G.T. Holman (Advanced Materials Physics Div., Org. 1152, Sandia National Labs, Albuquerque, NM 87185-0345), K. Vandersall, R.R. Russell, N.N. Thadhani (MSE, Georgia Tech, Atlanta, GA 30332-0245), R.A. Graham (The Tome Group, 383 La Entrada Road, Los Lunas, NM 87031)
08:45 F2.04 Shock Compaction of Molybdenum Nitride Powder
S. Roberson, R.F. Davis (North Carolina State University, Raleigh, NC 27695), Vasant S. Joshi, P-A. Persson (Energetic Materials Research and Testing Center, New Mexico Tech, Socorro, NM 87801), D. Fienello (Eglin Air Force Base, FL 32542)
09:00 F2.05 Isothermal State Equation of Micrometer and Nanometer Nickel Powders
Xiaogang Jin, hanzhao Zhang (LSD), Rongzheng Che, Lei Zhou, Lisong Xiu, Jing Liu (BEPC)
09:15 F2.06 Crack prevention in shock compaction of powders
E.P. Carton (TNO-Prins Maurits Laboratory /TU Delft, P.O. Box 45, 2280 AA, Rijswijk, The \Netherlands), M. Stuivinga, H.J. Verbeek (TNO Prins Maurits Laboratory, P.O. Box 45, 2280 AA, Rijswijk, The Netherlands), J Schoonman (Delft University of Technology, Laboratory of Applied Inorganic Chemistry, P.O. Box \5045, 2600 GA, Delft, The Netherlands)
09:30 F2.07 Modifications to the Oh-Persson Equation of State
B.E. Fuchs (U.S. Army, ARDEC, Dover, NJ), J. Droughton (New Jersey Institute of Technology, Newark, NJ), P.-A. Persson (New Mexico Tech, Socorro, NM)

Session F3. Mechanical Properties III: (Strength Effect: Metals).

Tuesday morning, 08:00, 101

08:00 F3.01 An Investigation of the \alpha-\epsilon Phase Transformation in shock loaded EN3 Mild Steel
Jeremy Millett, Neil Bourne (Shock Physics, PCS, Cavendish Laboratory, Madingley Road, Cambridge, CB3 0HE, UK.), Zvi Rosenberg (Rafael, PO Box 2250, Haifa, Israel.)
08:15 F3.02 Shock Response of 5083-0 Aluminum
Mark Laber (University of Dayton Research Institute, Dayton OH 45469-0182), Z Rosenberg (RAFAEL, P. O. Box 2250 (24), Haifa, Israel), N. S. Brar (University of Dayton Research Institute, Dayton OH 45469-0182)
08:30 F3.03 Shock Wave Reflection Behavior in Double-Layer Meteoroid Bumper Systems
H. Nahme, A.J. Stilp, K. Weber (Ernst-Mach-Institut)
08:45 F3.04 Optimization of the Performance of Segmented-Telescopic = Penetrators
David L. Littlefield (IAT-UT)
09:00 F3.05 Temperature Dependence on Shock response of stainless steel
Zhuowei Gu, Xiaogang Jin (LSD)
09:15 F3.06 Elastic-Plastic Deformation and Spall Fracture of Metals at High Temperatures.
S.V. Razorenov, G.I. Kanel, A.A. Bogach, A.V. Utkin, V.E. Fortov (Institute of Chemical Physics (Chernogolovka), Moscow reg., 142432 Russia), D.E. Grady (Applied Research Associates, Inc. Albuquerque, NM 87110 USA.)
09:33 F3.07 Elastic Modulus and Dynamic Yield Strength of Metals near the Melting Temperature.
A.V. Utkin, G.I. Kanel, S.V. Razorenov, A.A. Bogach (Institute of Chemical Physics in Chernogolovka, Moscow region, 142432 Russia), D.E. Grady (Applied Research Associates, San Mateo Blvd. NE Suite A-220 Albuquerque, NM 87110 USA.)

Session F4. Modeling: Ceramics and Brittle Fracture.

Tuesday morning, 08:00, 174-6

08:00 F4.01 A probabilistic model for the dynamic fragmentation of brittle solids
Francois Hild (LMT, ENS de Cachan/CNRS/Universite Paris VI), Christophe Denoual (DGA/DCE/C REA/MCS)
08:15 F4.02 Numerical Study of Penetration in Ceramic Targets with a Multiple-plane Microcracking Model
H.D. Espinosa (Purdue University, W. Lafayette, IN 47907-1282), G. Yuan (Purdue University, W. Lafayetter, IN 47907-1282), N.S. Brar (University of Dayton Research Institute, Dayton, OH 45469)
08:30 F4.03 An Analytic Penetration Model for a Drucker-Prager Yield Surface with Cutoff
J.D. Walker (Southwest Research Institute), C.E. Anderson
08:45 F4.04 A comparison study between scalar and multi-plane microcracking ceramic damage models
D.J. Grove, A.M. Rajendran (Material Division)
09:00 F4.05 Modeling of in-situ ballistic measurements using the Rajendran-Grove and Johnson-Holmquist ceramic models
K.P. Walsh, A.M. Rajendran (Material Division)
09:15 F4.06 Fracture of brittle material with initial porosity under high energy density flows.
I.N. Lomov (HEDRC RAS), V.I. Kondaurov, V.E. Fortov