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Influence of the Shape of an Explosive Charge: Quantification of the Modification of the Pressure Field

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Many scientific articles dealing with the detonation of explosive charges and their effects suppose that the charge is spherical and centrally initiated. Yet, when discussing the blast wave effect, the charge shape and the location of initiation could be as important as the composition or the mass of the considered explosive. Specifically, close to the charge, the shape may cause significant modifications of the pressure field compared to the predictions developed for spherical charges. Experiments have been carried out, using an emulsion explosive, TNT and C4, in order to quantify the shape effect. Unconfined, centrally initiated spherical and cylindrical charges with different length-to-diameter (L/D) ratios have been fired. The pressure in the median plane was recorded for different reduced distances. Results for spherical charges showed excellent agreement with well-known references. The expected change of the pressure field in the median plane of a cylindrical charge was observed, directly linked to the L/D ratio. Peak overpressure magnifications of up to almost 3 have been measured. The dimensions of the zone within which an increase of the blast wave effect is observed, have also been determined. A similar behaviour for TNT and C4 has been demonstrated; but a different behaviour has been observed for the emulsion explosive.
Słowa kluczowe
Rocznik
Strony
195--213
Opis fizyczny
Bibliogr. 16 poz., rys., tab.
Twórcy
autor
  • Ecole Royale Militaire, Laboratory for Energetic Materials, Av. de la Renaissance 30, 1000 Bruxelles, Belgium
autor
  • Ecole Royale Militaire, Laboratory for Energetic Materials, Av. de la Renaissance 30, 1000 Bruxelles, Belgium
Bibliografia
  • [1] Ismail M., Murray S., Study of the Blast Waves from the Explosion of Non-Spherical Charges, Propellants Explos. Pyrotech., 1993, 18, 132-138.
  • [2] Held M., TNT-equivalent, Propellants Explos. Pyrotech., 1983, 8, 158-167.
  • [3] Simoens B., Lefebvre M.H., Minami F., Influence of Different Parameters on the TNT-Equivalent of an Explosion, Cent. Eur. J. Energ. Mater., 2011, 8(1), 53-67.
  • [4] Plooster M.N., Blast Effects from Cylindrical Explosive Charges: Experimental Measurements, Naval Weapons Center Report No. NWC TP 6382, Chia Lake, CA, 1982.
  • [5] Esparza E.D., Spherical Equivalency of Cylindrical Charges in Free-air, 25th Department of Defense, Explosives Safety Seminar, Aug. 1992.
  • [6] Plooster M.N., Blast Waves from Line Sources, National Center for Atmospheric Research, Boulder, Colorado, Nov. 1968.
  • [7] Katselis G., Anderson J.G., Estimation of Blast Overpressure from a Cylindrical Charge Using Time of Arrival Sensors, 14th Australasian Fluid Mechanics Conference, Adelaïde University, Adelaide, Dec. 2001.
  • [8] Wu C., Fattori G., Whittaker A., Oehlers D.J., Investigation of Air-Blast Effects from Spherical- and Cylindrical-Shaped Charges, Int. J. Protective Structures, 2010, 1(3), 345-362.
  • [9] Simoens B., Lefebvre M.H., Arrigoni M., Kerampran S., Effect of Charge Shape: Pressure Field around a Cylindrical Explosive Charge, Military Applications of Blast and Shock, Proc. MABS, Bourges, 2012.
  • [10] Hyde D.W., CONWEP: Conventional Weapons Effect, USAEWES/SS-R. Collection of Conventional Weapons Effects Calculations from the Equations and Curves of TM 5-855-1. Fundamentals of Protective Design for Conventional Weapons, 1992.
  • [11] Kinney G.F., Graham K.J., Explosive Shock in Air, Springer-Verlag, 1985.
  • [12] Baker W., Cox P.A., Kulesz J.J., Strehlow R.A., Westine P.S, Explosion Hazards and Evaluation, Elsevier, Amsterdam, 1983.
  • [13] Henrych J., The Dynamics of Explosion and Its Use, Elsevier Science Publisher, 1979.
  • [14] Brode H.L., Numerical Solution of Spherical Blast Waves, J. Appl. Phys., 1955, 6, 766.
  • [15] Ansys, Autodyn, Explicit Software for Non-Linear Dynamics.
  • [16] Lee E., Horning H., Kury J., Adiabatic Expansion of High Explosives DetonationProducts, Lawrence Livermore National Laboratory, University of California, Livermore, TID 4500-UCRL 50422, 1968
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4fd4d478-9d50-47f4-b1ac-dac04fd399dc
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