Two-phase modeling of deflagration-to-detonation transition in granular materials: Reduced equations AK Kapila, R Menikoff, JB Bdzil, SF Son, DS Stewart Physics of fluids 13 (10), 3002-3024, 2001 | 717 | 2001 |
Calculation of linear detonation instability: one-dimensional instability of plane detonation HI Lee, DS Stewart Journal of Fluid Mechanics 216, 103-132, 1990 | 365 | 1990 |
Two-phase modeling of deflagration-to-detonation transition in granular materials: A critical examination of modeling issues JB Bdzil, R Menikoff, SF Son, AK Kapila, DS Stewart Physics of fluids 11 (2), 378-402, 1999 | 328 | 1999 |
Equation of state and reaction rate for condensed-phase explosives BL Wescott, DS Stewart, WC Davis Journal of applied physics 98 (5), 2005 | 221 | 2005 |
Modeling two‐dimensional detonations with detonation shock dynamics JB Bdzil, DS Stewart Physics of Fluids A: Fluid Dynamics 1 (7), 1261-1267, 1989 | 191 | 1989 |
Level set methods applied to modeling detonation shock dynamics TD Aslam, JB Bdzil, DS Stewart Journal of Computational Physics 126 (2), 390-409, 1996 | 162 | 1996 |
Cellular detonation stability. Part 1. A normal-mode linear analysis M Short, DS Stewart Journal of Fluid Mechanics 368, 229-262, 1998 | 161 | 1998 |
The dynamics of detonation in explosive systems JB Bdzil, DS Stewart Annu. Rev. Fluid Mech. 39 (1), 263-292, 2007 | 155 | 2007 |
High resolution numerical simulation of ideal and non-ideal compressible reacting flows with embedded internal boundaries S Xu, T Aslam, DS Stewart Taylor & Francis Group 1 (1), 113-142, 1997 | 155 | 1997 |
On the dynamics of multi-dimensional detonation J Yao, DS Stewart Journal of Fluid Mechanics 309, 225-275, 1996 | 153 | 1996 |
Karhunen–Loéve expansion of Burgers’ model of turbulence DH Chambers, RJ Adrian, P Moin, DS Stewart, HJ Sung The Physics of fluids 31 (9), 2573-2582, 1988 | 149 | 1988 |
Two-phase modeling of DDT: Structure of the velocity-relaxation zone AK Kapila, SF Son, JB Bdzil, R Menikoff, DS Stewart Physics of Fluids 9 (12), 3885-3897, 1997 | 145 | 1997 |
On the dynamics of self-sustained one-dimensional detonations: A numerical study in the shock-attached frame AR Kasimov, DS Stewart Physics of Fluids 16 (10), 3566-3578, 2004 | 120 | 2004 |
The shock dynamics of stable multidimensional detonation DS Stewart, JB Bdzil Combustion and Flame 72 (3), 311-323, 1988 | 120 | 1988 |
Nonsteady burning of periodic sandwich propellants with complete coupling between the solid and gas phases A Hegab, TL Jackson, J Buckmaster, DS Stewart Combustion and Flame 125 (1-2), 1055-1070, 2001 | 116 | 2001 |
Solid rocket motor internal ballistics simulation using three-dimensional grain burnback MA Willcox, MQ Brewster, KC Tang, DS Stewart, I Kuznetsov Journal of Propulsion and Power 23 (3), 575-584, 2007 | 111 | 2007 |
Theory of two-phase detonation—part I: modeling JM Powers, DS Stewart, H Krier Combustion and Flame 80 (3-4), 264-279, 1990 | 111 | 1990 |
Solid propellant grain design and burnback simulation using a minimum distance function MA Willcox, MQ Brewster, KC Tang, DS Stewart Journal of propulsion and power 23 (2), 465-475, 2007 | 89 | 2007 |
On the normal detonation shock velocity-curvature relationship for materials with large activation energy J Yao, DS Stewart Combustion and Flame 100 (4), 519-528, 1995 | 84 | 1995 |
Detonation shock dynamics: a new approach to modeling multi-dimensional detonation waves JB Bdzil, W Fickett, DS Stewart Ninth Symposium (Int.) on Detonation, 730-742, 1989 | 75 | 1989 |