Detonation properties

D. Tuce and H. Hurivitz, Buby Code Calculations of Detonation Properties ICHNO Systems, TR63-216, NOL, White Oaks, Md., 1963. 

C. D. Hutchinson and co-workers, "Initiation and Detonation Properties of the Insensitive High Explosive TATB/KEL-F800 95/5," Vol. 1, in... 

Regardless of any theory, there is firm exptl proof that the particle size of a granular expl affects its steady detonation properties as well as its initiation behavior. In particular, the detonation velocity as well as the critical diameters of many granular expls depend on their particle size. The shock sensitivity of granular expls is also influenced by particle size. These effects will now be described Steady Detonation. 

Presence of dispersed aluminium powder in propane-air or butane-air mixtures enhances the detonative properties of stoichiometric mixtures. 

Mixtures of aluminium powder with liquid chlorine, dinitrogen tetraoxide or tetran-itromethane are detonable explosives, but not as powerful as aluminium-liquid oxygen mixtures, some of which exceed TNT in effect by a factor of 3 to 4 [1], Mixtures of the powdered metal and various bromates may explode on impact, heating or friction. Iodates and chlorates act similarly [2], Detonation properties of gelled slurries of aluminium powder in aqueous nitrate or perchlorate salt solutions have been studied [3], Reactions of aluminium powder with potassium chlorate or potassium perchlorate have been studied by thermal analysis [4],... 

This salt of acz-dinitromethane shows detonator properties. 

Mercury(IF) formohydroxamate N Hg(ONHCO.H)2 or Hg(ON=CHOH)2 Urbanski, 1967, Vol. 3, 158 It possesses detonator properties. See Other MERCURY COMPOUNDS, N-O COMPOUNDS C2H4HgN204... 

A study of autoignition of dioxan vapour and chlorine, in the gas phase at rather below 1 atm. Ignition was once observed at 25°C in daylight. In the dark it occurred from 100°C. The maximum pressure rise observed was 26 MPa per sec [1]. Detonation properties of gaseous mixtures of chlorine and dioxane, sometimes diluted with argon, are studied in detail [2], The combination is more sensitive than most fuel/air mixtures. 

Based on the theoretical evaluation and practical testing, it is concluded that 4-nitrophenol is a thermally unstable compound. Based on its heat of decomposition, it cannot be excluded that the substance has deflagration properties. Based on literature evaluations, it has no detonation properties. 

Kamlet, M. J. und Jacobs, S. J. Chemistry of Detonations, a Simple Method for Calculating Detonation Properties of CHNO-Explosives, Journal of Chem. Phys. 48, 23-50 (1968)... 

The newly developed equation of state was applied to the calculation of detonation properties. In this context, one stringent test of any equation of state is the prediction of detonation velocities as a function of initial densities, and we chose for this purpose PETN. The Cheetah results are shown in Figure 7 along with the experimental data.53 The agreement is again very good. 

Evaluation of Various Theoretical Equations of State used in Calculation of Detonation Properties. 

Reacting Multiple Phase Mixtures Application to the Detonation Properties of PETN. 

Many of the salts which have been prepared are explosive and sensitive to heat or impact. These include chlorites of copper (violent on impact), hydrazine (monochlorite, inflames when dry), nickel (explodes at 100°C but not on impact), silver (at 105° or on impact), sodium, tetramethylammonium, mercury, thallium and lead (which shows detonator properties). Several other chlorites not isolated and unstable in solution include mono-, di- and tri-methylammonium chlorites. The metal salts are powerful oxidants [1], Chlorites are much less stable than the corresponding chlorates, and most will explode under shock or on heating to around 100°C [2], Individually indexed compounds are ... 

Table 1 Chemical and detonation properties of some explosives... 

Y. Du, M. Jiang, Q. Sun and X. Fu, Detonation Properties and Thermal Stabilities of Furazano-Fused Cyclic Nitramines , in Proc. International Symposium on Pyrotechnics and Explosives, China Academic Publishers, Beijing, China, 412 (1987). 

Mader, C. L., Detonation Properties of Condensed Explosives Computed Using the Becker-Kistiakowsky-Wilson Equation of State, Report LA-2900, Los Alamos Scientific Laboratory, Los Alamos, New Mexico, 1963. 

MP 42, 83-144(1960) (9 refs) (Calcn of detonation characteristics for condensed expls) E) J. Berger et al, AnnPhys [13], 5, 1144-76 (I960) CA 55, 10890-91(1961) (Determination of detonation characteristics of solid expls) F) H.H. Licht,Explosivstoffe 15(4), 73-8(1966) CA 65, 13488(1966) (Calculation of Detonation Characteristics by Means of a Differential Decomposition Equation) (See also Detonation Parameters and Detonation Properties)... 

RUBY Code Calculations of Detonation Properties, C-H-N-0 Systems , US Naval Ordnance Report, NOLTR 63-216(1963) 6) L.B. Seely,... 

More information on the subject of parameters is given under "Detonation Parameters . Among the refs cited there, the most important is that of C.L. Mader, "Detonation Properties of Condensed Explosives Computed Using the Becker-Kisda-kowsky-Wilson Equation of State , Los... 

Detonation, Chapman-Jouguet Wave and Flow Behind It. Accdg to Evans Ablow (Ref 6), the C-J hypothesis is supported by the agreement betw calcd and observed deton properties under exptl conditions which make the one-dimensional approxi-... 

Laws governing explosion (and detonation) properties of dusts and vapors are the same as for "nonideal gases (See under "Detonation and Explosion of Gases )... 

Mader (Addnl Ref N) determined C-J parameters for many C-H-N-0 expls using for calculations the IBM-7030 STRETCH Computer, and the Code STRETCH BKW which was described in Los Alamos Scientific Laboratory Report "STRETCH BKW - A Code for Computing the Detonation Properties of Explosives ... 

The computed C-J detonation properties D (detonation velocities in cm//nsec), p (pressure in megabars), T (temperature, °K), and y (polytropic exponent) are given in Table III, pp 14-17 of Addnl Ref N. The C-J volume in cc/g of expl and some other properties were also determined, but they are not shown in Table III they are li ted on pp 26-324... 

Application of these equations to determination of detonation properties of the above explosives is described in detail in Ref 15, pp 55-66... 

CA 55, 24011(1961) (Equation of state of the products in. RDX detonation) Mj) W. Fickett, "Detonation Properties of Condensed Explosives Calculated with an Equation of State Based on Intermo-lecular Potentials , Los Alamos Scientific Laboratory Report LA-2712(1962), Los Alamos, New Mexico, pp 9-10 (Model of von Neumann-Zel dovich), pp 153-66 [Comparison of KW (Kistiakowsky-Wilson) equation of state with those of LJD (Lennard-Jones-Devonshire) and Constant-/ ] M2) C.L. 

N) C.L. Mader, "Detonation Properties of Condensed Explosives Using BeCker-Kistiakowsky-Wilson Equation of State , LASL Rept LA-2900(1963) O) M. Lutzky, "The Flow Field Behind a Spherical Detonation in TNT Using the Landau-Stanyukovich Equation of State for Detonation Products , USNavalOrdnanceLaboratory, White Oak, Md, NOLTR 64-40(1964) (The equation discussed in Rept is the one modified by Zel dovich Kompaneets and is referred to by Lutzky as "LSZK Equation of State ) Oi) M.L. Wilkins, Univ of Calif, LawrenceRadLab, Livermore, Calif, Rept UCRL-7797(1964) P) H. Hurwitz, "Calculation of the Detonation Parameters With... 

Fickett, Detonation Properties of Condensed Explosives Calculated with an Equation of State Based on Intermolecular Potentials ,... 

Fickett in "Detonation Properties of Condensed Explosives Calculated with an Equation of State Based on Intermolecular Potentials , Los Alamos Scientific Lab Rept LA-2712 (1962), pp 34-38, discusses perturbation theories as applied to a system of deton products consisting of two phases one, solid carbon in some form, and the other, a fluid mixt of the remaining product species. He divides these theories into two classes conformal solution theory, and what he chooses to call n-fluid theory. Both theories stem from a common approach, namely, perturbation from a pure fluid whose props are assumed known. They differ mainly in the choice of expansion variables. The conformal solution method begins with the assumption that all of the intermolecular interaction potentials have the same functional form. To obtain the equation of state of the mixt, some reference fluid obeying a common reduced equation of state is chosen, and the mixt partition function is expanded about that of the reference fluid... 

Detonation Properties of Explosives. See Detonation, Chapman-Jouguet Parameters and also Detonation Parameters and Characteristics... 

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