2018 - Sustainable Industrial Processing Summit & Exhibition
4-7 November 2018, Rio Othon Palace, Rio De Janeiro, Brazil
Seven Nobel Laureates have already confirmed their attendance: Prof. Dan Shechtman, Prof. Sir Fraser Stoddart, Prof. Andre Geim, Prof. Thomas Steitz, Prof. Ada Yonath, Prof. Kurt Wüthrich and Prof. Ferid Murad. More than 400 Abstracts Submitted from about 60 Countries.
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    Explosion Systems with Inert High Modulus Components: Unexpected Phenomena and Opportunities
    Igor Balagansky1;
    1NOVOSIBIRSK STATE TECHNICAL UNIVERSITY, Movosibirsk, Russian Federation;
    PAPER: 33/Manufacturing/Invited (Oral)
    SCHEDULED: 11:20/Wed./Mar Azul (50/1st)



    ABSTRACT:
    The data received during the experiments on detonation in high explosive charges, which contain inert elements made of materials in which sound velocity is significantly higher than detonation velocity, are systematically reviewed. The shock waves exiting from inert materials due to detonation may outrun the detonation front and compress the explosive material ahead of the front. These lead to changes in the explosive state and related changes in kinetics of the detonation transition. As a result, the stationarity of the process is violated, which lead to unpredictable alterations in the detonation phenomena. The phenomena occurring in such systems are described in detail: desensitization of high explosives, nonstationary detonation processes, energy focusing, and Mach stems formation. The hyper-speed flows of ceramic particles arising due to the explosive collapse of ceramic tubes are described. The possibility of designing protective structures from explosion, based on high modulus ceramic materials, is considered. The structural transformations, caused by energy focusing, or by the impact of hyper-speed ceramic jet in metallic materials, are discussed. These transformations include, but are not limited to adiabatic shear banding, phase transformations, mechanical twinning, melting, boiling, and even evaporation of the impacted substrates. From the practical point of view, this may lead to the decrease or increase in the efficiency of various explosive technologies. The understanding of its origins, time evolution, and the non-stationary phenomena in such explosion systems may provide us a useful instrument to increase the efficiency of explosive technologies and to purposefully control the detonation process.

    References:
    [1] Balagansky I.A., Razorenov S.V., Utkin A.V. Detonation parameters of condensed high explosive charges with long ceramic elements // Proceedings of the
    10th International Detonation Symposium. Boston, USA, 1993. P. 841-845.
    [2] Acceleration device based on high explosive charge which contains high modular ceramic tube / I.A. Balagansky, V.A. Agureikin, I.F. Kobilkin, N.I. Nosenko, V.V. Naumov, A.V. Vinogradov, A.I. Balagansky // International Journal of Impact Engineering. 1999. Vol. 22. P. 813-823.
    [3] Evolution of shock waves in silicon carbide rods / I.A. Balagansky, A.I. Balagansky, S.V. Razorenov, A.V. Utkin // Proceedings of the 14th APS Topical Conference on Shock Compression of Condensed Matter. Baltimore, USA, 2006. P. 835-838.
    [4] Study of energy focusing phenomenon in explosion systems, which include high modulus elastic elements / I.A. Balagansky, K. Hokamoto, P. Manikandan, A.D. Matrosov, I.A. Stadnichenko, H. Miyoshi, I.A. Bataev, A.A. Bataev, A.A. Stepanov // Proceedings of the 14th International Detonation Symposium. Coeur d'Alene, Idaho, 2010. P. 583-590.
    [5] Mach stem formation in explosion systems, which include high modulus elastic elements / I.A. Balagansky, K. Hokamoto, P. Manikandan, A.D. Matrosov, I.A. Stadnichenko, H. Miyoshi, I.A. Bataev, A.A. Bataev // Journal of Applied Physics 110, 123516 (2011); doi: 10.1063/1.3671063.
    [6] Balagansky I.A., Stepanov A.A. Numerical simulation of Composition B high explosive charge desensitization in gap test assembly after loading by precursor wave // Shock Waves. 2016. Vol. 26. P. 109-115. doi: 10.1007/s00193-015-0584-1.
    [7] Balagansky I.A., Vinogradov A.V., Merzhievsky L.A., Matrosov A.D., Stadnichenko I.A. Analysis of Shell Material Influence on Detonation Process in High Explosive Charge, Key Engineering Materials (2016) ISSN: 1662-9795, Vol. 715, pp 27-32.
    [8] Balagansky I. A. Modelling of fast jet formation under explosion collision of two-layer alumina/copper tubes / I. A. Balagansky, A. V. Vinogradov, L. A. Merzhievsky // The International Journal of Multiphysics. - 2017. - Vol. 11, 3. - P. 265-375. - DOI: 10.21152/1750-9548.11.3.265.
    [9] Generation of Hypervelocity Particle Flows by Explosive Compression of Ceramic Tubes / I. A. Balaganskii, L. A. Merzhievskii, V. Y. Ul'yanitskii, I. A. Bataev, A. A. Bataev, A. D. Matrosov, I. A. Stadnichenko, I. S. Batraev, A. V. Vinogradov // Combustion, Explosion, and Shock Waves. - 2018.- Vol. 54.- No. 1.- pp. 119-124. - DOI: 10.1134/S0010508218010173.