Phenomenological model of shock initiation in heterogeneous explosives EL Lee, CM Tarver The Physics of Fluids 23 (12), 2362-2372, 1980 | 959 | 1980 |
Critical conditions for impact-and shock-induced hot spots in solid explosives CM Tarver, SK Chidester, AL Nichols The Journal of Physical Chemistry 100 (14), 5794-5799, 1996 | 530 | 1996 |
Modeling short pulse duration shock initiation of solid explosives CM Tarver, JO Hallquist, LM Erickson Lawrence Livermore National Lab., CA (USA), 1985 | 226 | 1985 |
Thermal decomposition models for HMX-based plastic bonded explosives CM Tarver, TD Tran Combustion and Flame 137 (1-2), 50-62, 2004 | 224 | 2004 |
Chemical decomposition models for the thermal explosion of confined HMX, TATB, RDX, and TNT explosives RR McGuire, CM Tarver Seventh Symposium (International) on Detonation, 56-64, 1981 | 187 | 1981 |
Subnanosecond measurements of detonation fronts in solid high explosives SA Sheffield, DD Bloomquist, CM Tarver The Journal of Chemical Physics 80 (8), 3831-3844, 1984 | 152 | 1984 |
Detonation waves in triaminotrinitrobenzene CM Tarver, JW Kury, RD Breithaupt Journal of applied physics 82 (8), 3771-3782, 1997 | 139 | 1997 |
Multiple roles of highly vibrationally excited molecules in the reaction zones of detonation waves CM Tarver The Journal of Physical Chemistry A 101 (27), 4845-4851, 1997 | 133 | 1997 |
Detonation waves in pentaerythritol tetranitrate CM Tarver, RD Breithaupt, JW Kury Journal of applied physics 81 (11), 7193-7202, 1997 | 112 | 1997 |
Density estimations for explosives and related compounds using the group additivity approach CM Tarver Journal of Chemical and Engineering Data 24 (2), 136-145, 1979 | 101 | 1979 |
Reactive flow modeling of the interaction of TATB detonation waves with inert materials CM Tarver, EM McGuire Lawrence Livermore National Lab.(LLNL), Livermore, CA (United States), 2002 | 91 | 2002 |
Modeling the effects of shock pressure and pore morphology on hot spot mechanisms in HMX HK Springer, S Bastea, AL Nichols III, CM Tarver, JE Reaugh Propellants, Explosives, Pyrotechnics 43 (8), 805-817, 2018 | 86 | 2018 |
Sensitivity of 2, 6-Diamino-3, 5-Dinitropyrazine-1-Oxide CM Tarver, PA Urtiew, TD Tran Journal of Energetic Materials 23 (3), 183-203, 2005 | 85 | 2005 |
Embedded Electromagnetic Gauge Measurements and Modeling of Shock Initiation in the TATB Based Explosives LX‐17 and PBX 9502 RL Gustavsen, SA Sheffield, RR Alcon, JW Forbes, CM Tarver, F Garcia AIP Conference Proceedings 620 (1), 1019-1022, 2002 | 84 | 2002 |
Low amplitude impact testing and analysis of pristine and aged solid high explosives SK Chidester, R Garza, CM Tarver Lawrence Livermore National Lab.(LLNL), Livermore, CA (United States), 1998 | 82 | 1998 |
Simulating thermal explosion of cyclotrimethylenetrinitramine-based explosives: Model comparison with experiment JJ Yoh, MA McClelland, JL Maienschein, JF Wardell, CM Tarver Journal of Applied Physics 97 (8), 2005 | 79 | 2005 |
Detonation waves in trinitrotoluene JW Kury, RD Breithaupt, CM Tarver Shock Waves 9, 227-237, 1999 | 79 | 1999 |
On the violence of thermal explosion in solid explosives SK Chidester, CM Tarver, LG Green, PA Urtiew Combustion and Flame 110 (1-2), 264-280, 1997 | 77 | 1997 |
Ignition and Growth Modeling of LX‐17 Hockey Puck Experiments CM Tarver Propellants, Explosives, Pyrotechnics: An International Journal Dealing with …, 2005 | 72 | 2005 |
A statistical hot spot reactive flow model for shock initiation and detonation of solid high explosives AL Nichols, CM Tarver Lawrence Livermore National Lab.(LLNL), Livermore, CA (United States), 2002 | 72 | 2002 |