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Combustion Theory and Modelling Volume 3, 1999 - Issue 1
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Original Articles

Detonation shock dynamics and comparisons with direct numerical simulation

Tariq D Aslam Los Alamos National Laboratory, Los Alamos, NM, 87545, USA
&
D Scott Stewart University of Illinois, Urbana, IL, 61801, USA
Pages 77-101 | Received 05 Jan 1998, Published online: 15 Aug 2006

Citations (18)

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Read on this site (2)

Brandon A. Lieberthal, John B. Bdzil & D. Scott Stewart. (2014) Modelling detonation of heterogeneous explosives with embedded inert particles using detonation shock dynamics: Normal and divergent propagation in regular and simplified microstructure. Combustion Theory and Modelling 18:2, pages 204-241.
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A.K. Kapila, J.B. Bdzil & D.S. Stewart. (2006) On the structure and accuracy of programmed burn. Combustion Theory and Modelling 10:2, pages 289-321.
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Articles from other publishers (16)

Lin Zhou, Honghui Teng, Hoi Dick Ng, Pengfei Yang & Zonglin Jiang. (2021) Reconstructing shock front of unstable detonations based on multi-layer perceptron. Acta Mechanica Sinica 37:11, pages 1610-1623.
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Sourabh Koli, P. Chellapandi, Lokavarapu Bhaskara Rao & Akshay Sawant. (2020) Study on JWL equation of state for the numerical simulation of near-field and far-field effects in underwater explosion scenario. Engineering Science and Technology, an International Journal 23:4, pages 758-768.
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Jian-Hang Wang, Shucheng Pan, Xiangyu Y. Hu & Nikolaus A. Adams. (2019) A split random time-stepping method for stiff and nonstiff detonation capturing. Combustion and Flame 204, pages 397-413.
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Mark Short, James J. Quirk, Carlos Chiquete & Chad D. Meyer. (2017) Detonation propagation in a circular arc: reactive burn modelling. Journal of Fluid Mechanics 835, pages 970-998.
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Brandon Lieberthal, D. Scott Stewart & Alberto Hernández. (2017) Geometrical shock dynamics applied to condensed phase materials. Journal of Fluid Mechanics 828, pages 104-134.
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Mark Short, James J. Quirk, Chad D. Meyer & Carlos Chiquete. (2016) Steady detonation propagation in a circular arc: a Detonation Shock Dynamics model. Journal of Fluid Mechanics 807, pages 87-134.
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Scott I. Jackson & Mark Short. (2015) Scaling of detonation velocity in cylinder and slab geometries for ideal, insensitive and non-ideal explosives. Journal of Fluid Mechanics 773, pages 224-266.
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Y. Noumir, A. Le Guilcher, N. Lardjane, R. Monneau & A. Sarrazin. (2015) A fast-marching like algorithm for geometrical shock dynamics. Journal of Computational Physics 284, pages 206-229.
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F. Ettner, K. G. Vollmer & T. Sattelmayer. (2012) Mach reflection in detonations propagating through a gas with a concentration gradient. Shock Waves 23:3, pages 201-206.
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John B. BdzilD. Scott Stewart. (2007) The Dynamics of Detonation in Explosive Systems. Annual Review of Fluid Mechanics 39:1, pages 263-292.
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M. Short, G.J. Sharpe, V. Gorchkov & J.B. Bdzil. (2005) Self-sustaining, weakly curved, imploding pathological detonation. Proceedings of the Combustion Institute 30:2, pages 1899-1906.
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S. D. WattG. J. Sharpe. (2004) One-dimensional linear stability of curved detonations. Proceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 460:2049, pages 2551-2568.
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B. L. Wescott, D. Scott Stewart & J. B. Bdzil. (2004) On self-similarity of detonation diffraction. Physics of Fluids 16:2, pages 373-384.
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J.B. Bdzil, D.S. Stewart & T.L. Jackson. (2001) Program Burn Algorithms Based on Detonation Shock Dynamics: Discrete Approximations of Detonation Flows with Discontinuous Front Models. Journal of Computational Physics 174:2, pages 870-902.
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Christiane Helzel, Randall J. Leveque & Gerald Warnecke. (2000) A Modified Fractional Step Method for the Accurate Approximation of Detonation Waves. SIAM Journal on Scientific Computing 22:4, pages 1489-1510.
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D. Scott Stewart, Jin Yao & William C. Davis. (2000) Computation of shock acceleration effects on detonation shock dynamics for explosives described by general equation of state. Proceedings of the Combustion Institute 28:1, pages 619-628.
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