NUMERICAL MODELING OF EXPLOSIVES AND PROPELLANTS Computer Movies June 1, 2001 A collection of explosive animations performed using the codes described in the monograph "Numerical Modeling of Explosives and Propellants," by Dr. Charles L. Mader, published in 1997 by CRC Press - ISBN 0-9403-3149-8. Many new movies of topics covered in the book supplement those on the second edition book CD-ROM. For DOS, Windows or Dos Emulator (SoftPC) on Mac, unzip file using PKUNZIP.exe available on the web site. To view animation type -- MOVIE -- To study individual cases type - MM TAPEXX where XX is file number. Follow instructions on screen. INDEX Initiation of PBXN-15 by Aluminum Flying Plates. SIN15 - Initiation by a 0.15 cm/microsec Aluminum Flying Plate TDL15AL - PBXN-5 Cylinder Confined by Aluminum TDL15FE - PBXN-5 Cylinder Confined by Steel SIN13 - Initiation by a 0.13 cm/microsec Aluminum Flying Plate TDL13AL - PBXN-5 Cylinder Confined by Aluminum TDL13FE - PBXN-5 Cylinder Confined by Steel Shocks From Underwater Detonations Interacting with Steel Plates LEESIN - 35 kb TNT Sphere/ 60 cm Water/ 1.9 cm Steel LEETDL - 35 kb TNT Sphere/ 30 cm Water/ 1.9 cm Steel Hydrazine Shock Hugoniot Experiment - TDL Calculation GARCIA - Baratol/2.54 Al/ Hydrazine in Al Cup Plane Wave Lens - TDL Calculation P100 - TNT/PBX-9501 Plane Wave Lens Hemispherical Detonator - TDL Calculation DET - 9404 Detonator Initiation of PBX-9502 Aquarium Test - TDL Calculation AQUAR - A Cylinder of PBX-9502 in Water Failure Diameter - TDL Calculation with Forest Fire FDIA - 0.6 and 0.3 cm Radius PBX-9502 Cylinders Homogeneous Shock Initiation of Nitromethane - SIN Calculation NM - 90 kbar Shock Initiation of Nitromethane Heterogeneous Shock Initiation of PBX-9502 - SIN Calculation FOREST - Forest Fire Burn of PBX-9502 Flying Aluminum Foil Initiation of PBX-9404 - SIN Calculation FFOIL - Short Shock Pulse Initiation of PBX-9404 Energy From Shocked But Not Detonated PBX-9404 - SIN Calculation FFENG - 30 Kbar, 0.64 cm 9404, 0.2 cm Plexiglas PBX-9404 Shocking an Aluminum Plate - SIN Calculation 9404Al - 5 cm PBX-9404/1 cm Aluminum PBX-9404 Shocking a Steel Plate - SIN Calculation 9404FE - 5 cm PBX-9404/1 cm Steel PBX-9404 Shocking a Plexiglas Plate - SIN Calculation 9404PXG - 5 cm PBX-9404/1 cm Plexiglas A Sphere of PBX-9404 Shocking an Aluminum Plate - A SIN Calculation CONVERG - Converging 5 cm PBX-9404/1 cm Aluminum/4 cm Air A Sphere of PBX-9404 Shocking an Aluminum Plate - A SIN Calculation DIVERG - Diverging 5 cm PBX-9404/1 cm Aluminum/4 cm Air An Aluminum Driver Shocking an Aluminum Target - SIN Calculation ALAL - 0.5 cm Al Target at 0.1 cm/microsec/1 cm Al Target An Aluminum Driver Shocking a Plexiglas Target - SIN Calculation ALPXG - 0.5 cm Al Target at 0.1 cm/microsec/1 cm Plexiglas Target An Aluminum Driver Shocking a Gold Target - SIN Calculation ALAU - 0.5 cm Al Target at 0.1 cm/microsec/1 cm Gold Target An Aluminum Driver Shocking an Aluminum Target - SIN Calculation ALALEP - 0.3 cm Al Target at 0.04 cm/microsec/1.2 cm Al Target High Pressure Steam Shocking Air - SIN Calculation STEAM - 27.4 cm 1000 psi Steam shocking Air in Slab, Cylindrical and Spherical geometry. Corner Turning - TDL Calculation CORNER - PBX-9502 Detonation Wave Corner Turning Cylindrical Implosion - TDL Calculation PEGAS - Cylindrical Implosion of thin Aluminum Flyer impacting an Aluminum Cylinder. Detonation Failure From Preshocking - TDL Calculation DESEN - Desensitization of PBX-9502 by a 50 kbar preshock Resulting in Detonation Failure Steel Jet Penetration of Steel - 2DE Calculation FEJET - Steel Rod moving 1.00 cm/microsecond Pentrating Steel Steel Jet Penetration of Aluminum - 2DE Calculation FEALJET - Steel Rod moving 1.00 cm/microsecond Pentrating Aluminum Jet Initiation of Explosive - 2DE Calculation FEHE - Jet Initiation of Composition B by Steel Rod. Explosive Desensitization by Jet Bow Shock Wave - 2DE Calculation FEFEHE - Steel Jet/ Steel Barrier / Composition B - Forest Fire FENRHE - Steel Jet/ Steel Barrier / Composition B - No Reaction Permitted JETMSFF - Steel Jet/ Steel Barrier / Composition B - MSFF Plate Dent Experiment - 2DE Calculation PDENT - A Detonating PBX-9404 Cylinder Denting a Steel Plate. Projectile Impact with Water - 2DE Calculation ALH20 - An Aluminum Sphere Impacting Water at 0.5 centimeters/microsecond. Resolved Reaction Zones - SIN Calculation RXZPIST - Piston Driven Nitromethane Reaction Zones. RXZINIT - Nitromethane Shock Initiation. RXPIST -Stable and Unstable Nitromethane Detonations. RXTNT - Stable and Unstable Liquid TNT Detonations. RX9404 - Stable "Homogeneous" PBX-9404 Detonation. Unresolved Reaction Zone Detonation Wave - SIN Calculation VISC - Viscosity Effect on Unresolved Explosive Burns. Deflagration to Detonation Transition - SIN Calculation DDT - Burning to Detonation Transition using Bulk Burn/MSFF.