Rate of the energy release in high explosives containing nano-size boron particles

• Autorzy: Kanel G. I. , Utkin A. V. , Razorenov S. V.
• Języki publikacji: EN

Abstrakty

EN

With a goal to obtain information on rate of the high explosive decomposition and equation of state of the HE formulations and detonation products, measurements of the pressure and particle velocity profiles of shock and detonation waves have been performed for pure coarse-grain and fine-grain HMX and for the HMX+16.4% boron mixture. For these measurements, the manganin pressure gauges and the laser Doppler velocimeter VISAR were applied. Effect of boron in the energy release process was observed both in the detonation and shock-wave initiation regimes.

Słowa kluczowe

EN

high explosive; HMX; boron; manganin pressure gauges; VISAR; Chapman-Jouget point

• Czasopismo: Central European Journal of Energetic Materials
• Rocznik: 2009
• Tom: Vol. 6, nr 1
• Strony: 15--30
• Opis fizyczny: Bibliogr. 17 poz.

Twórcy

autor

Kanel G. I.

autor

Utkin A. V.

autor

Razorenov S. V.

• Institute of Problems of Chemical Physics RAS Chernogolovka, Moscow reg., 142432 Russia

Bibliografia

• [1] Belyaev A.F., Combustion, detonation and work of explosion of condensed systems, Nauka, Moscow 1968, (in Rus.).
• [2] Cook M.A., The Science of Industrial Explosives, IRECO Chemicals, Salt Lake City, Utah 1974.
• [3] Aniskin A.I., Effect of Aluminium on the Profile of a Detonation in RDX Strongly Diluted with Inert Additives., in: Detonation. Proceedings of the II All-Union meeting on detonation, Chernogolovka 1981, pp. 39-45, (in Rus.).
• [4] Moulard H., Fouguignon C., Lichtenberger M., Lombard J.M., Detonation de Melange Nitromethene-Al-NO2, Proceedings of the HDP Symposium, CEA, France, Paris 1979, pp. 293-307.
• [5] Tao W.C., Tarver C.M., Breithaupt D.R., Fundamental Chemical Interactions In metal-filled composite explosives, in: Shock Compression of Condensed Matter 1991, (S.C. Schmidt et al. Eds.), Elsevier Publishers B.V., 1992, pp. 655-658.
• [6] Al’tshuler L.V., Balalaev V.V., Doronin G.S., Zhuchenko V.S., Obukhov A.C., Features of Detonation of Retarded HE, in: Proceedings of II Soviet Workshop on Detonation, published by the Institute of chemical Physics, Chernogolovka, 1981, pp. 36-39, (in Rus.).
• [7] Al’tshuler L.V., Ashaev V.K., Balalaev V.V., Doronin G.S., Zhuchenko V.S., Parameters and detonation modes of condensed HE, Physics of Combastion and Explosion, 1983, 19(4), 153-159.
• [8] Lubyatinsky S.N., Loboiko B.G., Reaction Zone Measurements in Detonating Aluminized Explosives, in: Shock Compression of Condensed Matter 1995, (S.C. Schmidt and W.C. Tao Eds.), AIP Conference Proceedings 370, 1996, pp. 779-782.
• [9] Aniskin A.I., Detonation of Mixtures of High Explosives with Aluminum, in: Detonation and Shock Waves, Proceedings of VIII Soviet Symposium on Combustion and Explosion, published by the Institute of chemical Physics, Chernogolovka 1986, pp. 26-32.
• [10] Pepekin V.I., Makhov M.N., Apin A.Ya., Reactions of Boron at Explosion, Physics of Combustions and Explosions, 1972, 8(1), 135-138.
• [11] Akimova L.N., Apin A.Ya., Stesik L.N., Detonation of HE with Boron and Its Organic Compositions Physics of Combustions and Explosions, 1972, 8(4), 475-479.
• [12] Sosnova G.S., On the Burn of Boron and Aluminum at a High Pressure and Temperature, in: Proceedings of III Soviet Symposium on Combustion and Explosion, Nauka, Moscow 1972, pp. 455-458 (in Rus).
• [13] Doherty R.M., Forbes J.W., Lawrence G.W., Deiter J.S., Baker N., Ashwell K.D., Suthertand G.T. Detonation Velocity of Melt-Cast ADN and ADN/Nanodiamond Mixtures, Bull. American Phys. Soc., 1997, 42(5), p. 1511, H1 4.
• [14] Bushman A.V., Kanel G.I., Ni A.L., Fortov V.E., Intense Dynamic Loading of Condensed Matter, Taylor & Francis 1993, pp. 287.
• [15] Kanel G.I., Utkin A.V., Fortov V.E., The Equations of State and Macrokinetics of Decomposition of Solid Explosives in Shock and Detonation Waves, in: Soviet Technology Reviews/Section B: Thermal Physics Reviews, (Scheindlin A.E. and Fortov V.E., Eds.), Harwood Academic Publishers GmbH, 1992, vol. 3, part 3, pp. 1-86.
• [16] Dremin A.N., Savrov S.D., Trofimov V.S., Shvedov K.K., Detonation Waves In Condensed Media, Nauka, Moscow 1970, (in Rus.).
• [17] Finger M., Lee E., Helm F.H., Hayes B., Horning H., McGuire R., Kahara M., Guidry M., The Effect of Elemental Composition on the Detonation Behavior of Explosives, Sixth Symp. (Int.) on Detonation, ACR-221 of Naval Research, 1976, pp. 710-722.