Numerical study of cavitation in the wake of a hypervelocity underwater projectile R Saurel, JP Cocchi, PB Butler Journal of Propulsion and power 15 (4), 513-522, 1999 | 163 | 1999 |
A thermomechanical analysis of hot spot formation in condensed-phase, energetic materials J Kang, PB Butler, MR Baer Combustion and flame 89 (2), 117-139, 1992 | 120 | 1992 |
The thermodynamics of the aluminium—water system at elevated temperatures DD MacDonald, P Butler Corrosion Science 13 (4), 259-274, 1973 | 115 | 1973 |
Methanol and hydrogen oxidation kinetics in water at supercritical states MK Alkam, VM Pai, PB Butler, WJ Pitz Combustion and Flame 106 (1-2), 110-130, 1996 | 80 | 1996 |
Analysis of deflagration to detonation transition in high-energy solid propellants PB Butler, H Krier Combustion and flame 63 (1-2), 31-48, 1986 | 70 | 1986 |
Modeling of shock development and transition to detonation initiated by burning in porous propellant beds PB Butler, MF Lembeck, H Krier Combustion and Flame 46, 75-93, 1982 | 67 | 1982 |
Chemkin real gas: a Fortran package for analysis of thermodynamic properties and chemical kinetics in nonideal systems RG Schmitt, PB Butler, NB French University of Iowa, 1994 | 62 | 1994 |
Hydrothermal hydrolysis of aluminum (3+) and the precipitation of boehmite from aqueous solution DD Macdonald, P Butler, D Owen The Journal of Physical Chemistry 77 (20), 2474-2479, 1973 | 60 | 1973 |
Hot-spot ignition of condensed phase energetic materials DL Bonnett, PB Butler Journal of propulsion and power 12 (4), 680-690, 1996 | 51 | 1996 |
Feasibility study of short takeoff and landing urban air mobility vehicles using geometric programming C Courtin, MJ Burton, A Yu, P Butler, PD Vascik, RJ Hansman 2018 Aviation Technology, Integration, and Operations Conference, 4151, 2018 | 43 | 2018 |
The thermodynamics of metal-water systems at elevated temperatures. Part 1: The water and copper-water systems DD Macdonald, GR Shierman, P Butler Atomic Energy of Canada Ltd., 1972 | 42* | 1972 |
Modeling and numerical simulation of the internal thermochemistry of automotive airbag inflators PB Butler, J Kang, H Krier Progress in Energy and Combustion Science 19 (5), 365-382, 1993 | 37 | 1993 |
An investigation of aluminum dust explosions RA Ogle, LD Chen, JK Beddow, PB Butler Combustion science and technology 61 (1-3), 75-99, 1988 | 37 | 1988 |
Shock propagation and blast attenuation through aqueous foams TD Panczak, H Krier, PB Butler Journal of hazardous materials 14 (3), 321-336, 1987 | 33 | 1987 |
Detonation properties of gases at elevated initial pressures RG Schmitt, PB Butler Combustion science and technology 106 (1-3), 167-191, 1995 | 32 | 1995 |
High temperature aqueous electrolyte concentration cells and the ionization of liquid water to 200 C DD MacDonald, P Butler, D Owen Canadian Journal of Chemistry 51 (15), 2590-2595, 1973 | 29 | 1973 |
Analysis of particle dynamics and heat transfer in detonation thermal spraying systems K Ramadan, PB Butler Journal of thermal spray technology 13, 248-264, 2004 | 27 | 2004 |
Equilibrium analysis of three classes of automotive airbag inflator propellants JM Berger, P BARRY BUTLER Combustion Science and Technology 104 (1-3), 93-114, 1995 | 26 | 1995 |
Adhesion and removal of particulate contaminants in a high-decibel acoustic field KW Montz, JK Beddow, PB Butler Powder technology 55 (2), 133-140, 1988 | 24 | 1988 |
The effect of material properties on reducing intermediate blast noise R Raspet, PB Butler, F Jahani Applied Acoustics 22 (4), 243-259, 1987 | 24 | 1987 |