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Tytuł artykułu

Influence of ignition method and loading conditions in closed vessel tests on the burning rate of a propelling charge

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Ignition process of granular propellant charge in gun propellant system is the essential step in the whole interior ballistic cycle and igniter is the very important element of ignition system. The task of igniter is to give propellant charge essential energetic impulse in time and space, which should provide uniform ignition of all propellant grains. Realisation of this task depends on many factors: mass and type of ignition material in igniter, igniter locations and dimensions, number and diameter of side holes of propellant grains etc. The aim of this work is to investigate closed vessel tests, which permit to see the differences in progress of propellant ignition period. For this purpose the possible infuence of the ignition system and loading density on the combustion rate was investigated. Different ignition systems have been used for the characterization of ignition phase in closed vessel tests. Basic closed vessel experiments were carried out in a conventional closed vessel (CCV) of 200 cm3 . Ignition systems with various mass of black powder were used. Comparable experiments were carried out in a micro-closed vessel (MCV) of 1,786 cm3 and vented closed vessel (VCV) of 200 cm3.
Rocznik
Tom
Strony
152--160
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
  • Institute of Armament Technology, Military University of Technology, 2 Kaliskiego str., 00-908 Warsaw, PL
Bibliografia
  • [1] STANAG 4367 LAND (Edition 2) – Thermodynamic Interior Ballistic Model with Global Parameters, Military Agency for Standardization, Brussels, 2000.
  • [2] Leciejewski. K. Z; Criticism of linear form of burning rate law with reference to conventional fnegrained propellants, Proceedings of 7th Int. Armament Conf. SAAT’2008, Pułtusk 8-0.10.2008, Poland, 2008, pp. 191-200.
  • [3] Leciejewski K. Z.; Experimental Study of Possibilities for Employment of Linear Form of Burning Rate Law to Characterise the Burning Process of Fine-Grained Propellants, Central European Journal of Energetic Materials, 5(1), Published by Institute of Industrial Organic Chemistry, Warsaw, 2008, pp. 45-61.
  • [4] Krier H., Summerfeld M., Interior Ballistic of Guns, Volume 66 Progress in Astronautics and Aeronautics, Published by the American Institute of Aeronautics and Astronautics, New York, 1979.
  • [5] Moss G.M., Leeming D.W., Farrer C.L., Military Ballistics – A Basic Manual, Royal Military College of Science, Shrivenham, Edited by Brassey’s (UK) Ltd, 1995.
  • [6] Sieriebriakov M., Internal Ballistics (in Russian), Edited by OBORONGIZ, Moscow, Russia, 1949.
  • [7] STANAG 4115 LAND (Edition 2) – Defnition and Determination of Ballistic Properties of Gun Propellants, North Atlantic Council, 1997.
  • [8] MIL-STD 286 B, Propellants, Solid: Sampling, Examination and Testing
  • [9] Leciejewski K. Z., Singularities of burning rate determination of fne-grained propellants, Proceedings of 23rd Int. Symp. on Ballistics, Volume I, pp. 369-376, Tarragona, Spain, 16-20 April, 2007.
  • [10] Jeunieau L., Lefebvre M.H., Papy A., Pirlot M.C., Guillaume P., Reynaud CH., Closed Vessel Test: Infuence of The Ignition Method on The Combustion Rate, 33rd Int. Ann. Conf. of ICT, June 25, Karlsruhe, Germany, 2002
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fa9b40ad-7224-4c80-beb3-88d36750a3a7
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