Abstract
An ideal detonation wave is defined here as a shock moving through a material which releases sufficient energy immediately behind the front to allow the shock to be self sustaining. All of the energy is released at the shock front, no further chemical reactions take place. The shock thickness, that is, the distance between ambient conditions and the peak pressure is the order of a few molecular mean free paths.
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Beckstead, M.W., Newbold, B.R., Waroquet, C.: A summary of aluminum combustion. In: Proceedings of the 37th JANNAF Combustion Meeting, Nov 2000
Brode, H. L.: A calculation of the blast wave from a spherical charge of TNT, Research Memorandum, RM 1965; published 1957
Kingery, C.N., Bulmash, G.: Airblast parameters from TNT spherical air burst and hemispherical surface burst, Technical Report ARBRL-TR-02555, U.S. Army Ballistic Research Laboratory, Apr 1984
Lutsky, M.: The Flow Behind a Spherical Detonation in TNT using the Landau-Stanyukovich Equation of State for Detonation Products, NOL-TR 64–40. U.S. Naval Ordnance Laboratory, White Oak, Maryland (1965)
Whitaker, W.A., et.al.: Theoretical Calculations of the Phenomenology of HE Detonations, AFWL TR 66–141, vol. 1. Air Force Weapons Laboratory, Kirtland Air Force Base, New Mexico (1966)
Wilkins, M.L.: Computer Simulation of Dynamic Phenomena, p. 80. Springer, Heidelburg (1999)
Zeldovich B., Kompaneets A.S.: Theory of Detonation. Academic Press, New York (1960) (English translation)
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Needham, C.E. (2018). Ideal High Explosive Detonation Waves. In: Blast Waves. Shock Wave and High Pressure Phenomena. Springer, Cham. https://doi.org/10.1007/978-3-319-65382-2_5
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DOI: https://doi.org/10.1007/978-3-319-65382-2_5
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