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Effect of Coated Ammonium Dinitramide on the Properties of Nitrate-ester Plasticized Polyether Solid Rocket Propellants

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Several industrial and research types of nitrate-ester plasticized polyether (NEPE) solid propellants were experimentally analyzed. In general, their compositions differed in the mass fraction of ammonium dinitramide (ADN), which was used as a promising highly energetic filler, as an alternative to ammonium perchlorate (AP). ADN exhibits high performance, low signature and non-polluting characteristics. The propellant composition without ADN, but with AP, was used as the reference. The microstructure and granularity distribution of the uncoated and coated ADN particles were experimentally analyzed. It was found that uncoated ADN particles exhibited irregular shape, while the ADN particles after coating are spherical. Because of their irregular shape, uncoated ADN particles caused inferior processability of the propellant slurry when added to the propellant formulation. Consequently, the NEPE propellants with coated ADN were studied in further detail. The rheological properties, energetic properties, mechanical sensitivities and combustion properties (burning rate and pressure exponent) of the NEPE propellants with coated ADN were studied and compared with the reference NEPE propellant. The addition of ADN particles to the propellant formulations increased the standard theoretical specific impulse and heat of explosion of the propellants, while decreasing the density. The propellants containing ADN particles were much more sensitive to impact and friction compared to the reference sample. Moreover, increasing the ADN mass fraction in the propellant formulation can significantly affect the combustion behaviour and increase the burning rate and pressure exponent compared to of the reference formulation. However it appears that ADN is a very promising candidate as a new energetic material in compositions of NEPE propellants, although several important questions concerning ADN’s suitability, especially in the context of its sensitivity to friction and impact, remain to be answered.
Rocznik
Strony
590--609
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Space Propulsion Laboratory (SPLab), Department of Aerospace Science and Technology, Politecnico di Milano, I-20156 Milan, Italy
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
autor
  • Xi’an Modern Chemistry Research Institute, Xi’an 710065, P.R. China
Bibliografia
  • [1] Menke, K.; Heintz, T.; Schweikert, W. Formulation and Properties of ADN/GAP Propellants. Propellants Explos. Pyrotech. 2009, 34: 218-230.
  • [2] Xu, H.-x.; Liao, L.-q.; Liu, Q. Properties of Prilled Ammonium Dinitramide (ADN) Coated by Polyurethane Binders. (in Chinese) Chinese Journal of Energetic Materials 2008, 16(6): 525.
  • [3] Teipel, U.; Heintz, T.; Krause, H. Crystallization of Spherical Ammonium Dinitramide (ADN) Propellants Explos. Pyrotech. 2000, 25: 81.
  • [4] Johansson, M.; de Flon, J.; Petterson, A. Spray Prilling of ADN and Testing of ADN - based Solid Propellants[C]. International Conferences: 3rd, Green Propellant for Space Propulsion and 9th, Hydrogen Peroxide Propulsion, Poitiers, France, 2006.
  • [5] Zhang, L.-y.; Liu, Z.-r.; Heng, S.-y. Interaction of ADN with Nitrate Oxidizer. (in Chinese) Journal of Solid Rocket Technology 2007, 30(6): 518.
  • [6] Pang, W.-q.; Fan, X.-z.; Zhang, W. Effect of Ammonium Dinitramide (ADN) on the Characteristics of Hydroxyl Terminated Polybutadiene (HTPB) Based Composite Solid Propellant. JCST 2013, 2(2): 53-60.
  • [7] Sinditskii, V. P.; Egorshev, V. Y.; Levshenko, A.I. Combustion of Ammonium Dinitramide, Part 1: Burning Behavior. J. Propul. Power. 2006, 22(4): 769-776.
  • [8] Liu, Z.-r. Thermal Analyses for Energetic Materials. National Defense Industry Press, BeiJing, 2008.
  • [9] Pang, W.-q.; Xu, H-x.; Li, Y. Characteristics of NEPE Propellant with Ammonium Dinitramide (ADN) [J]. Adv. Mater. Res. 2012, 399-401: 279-283
  • [10] Ostmark, H.; Wingborg, N.; Langlet, A. ADN: A New High Performance Oxidizer for Solid Propellants. In: International Symposium, 16th, San Francisco, USA, 1996, 285-294.
  • [11] Zhang, Z.; Ji, Y.; Wang, B.; Liu, Z. Application of Ammonium Dinitramide in Propellants and Explosives. (in Chinese) Chinese Journal of Explosives and Propellants 2004, 27(3): 36-41.
  • [12] Yue, P.; Heng, S.-y.; Han, F. Compatibilities of ADN with Five Kinds of Binders [J]. (in Chinese) Chinese Journal of Energetic Materials 2008, 16(1): 66-69.
  • [13] Kubota, N. Propellants and Explosives: Thermochemical Aspects of Combustion. 2nd ed., Wiley-VCG Verlag, Weinheim, 2007; ISBN 978-3-527-31424-9.
  • [14] Boschi Goncalves, R. F.; Rocco, J. A. F. F.; Koshun I. Energetic Materials Research, Applications, and New Technologies. 1st ed., IGI Global, 2017, ISBN: 9781522529040.
  • [15] Zhang, W.; Xie, W.-x.; Fan, X.-z.; Liu, F.-l.; Pang, W.-q.; Liu, X.-g.; Ji Y.-p. Energetic Characteristics and Comprehensive Properties of Propellants Containing ADN. (in Chinese) Chinese Journal of Explosives and Propellants 2015, 38(2): 81-85.
  • [16] Bergman, H.; Edvinsson, H.; Ostmark, H. Trends and Development of New Energetic Materials [C]. Militarteknisk tidskrift 2001, 70(2): 26-28.
  • [17] Jones, D. E. G. Characterization of ADN and ADN-based Propellants. Propellants Explos. Pyrotech. 2005, 30(2): 526-528.
  • [18] Pang, W.-q.; de Luca, L. T.; Xu, H. X. Effects of Dual Oxidizers on the Properties of Composite Solid Rocket Propellants. In: Chemical Rocket Propulsion (de Luca, L.; Shimada, T.; Sinditskii, V.; Calabro, M., Eds) 1st ed., Springer International Publishing, 2017; ISBN 978-3-319-27746-2.
  • [19] Yan, X.-t.; Xia, Z.-x.; Huang, L.-y. Experimental Study on Combustion Process of NEPE Propellant. Proc., 7th, European Conference Aeronautics and Space Sciences (EUCASS), 2017, 324.
  • [20] Ostmark, H.; Bemm, U.; Langlet, A. The Properties of Ammonium Dinitramide (ADN): Part 1, Basic Properties and Spectroscopic Data. J. Energ. Mater. 2000, 18(2-3): 123-138.
  • [21] Korobeinichev, O. P.; Paletsky, A. A. Study of the Flame Structure of ADN/HTPB Composite Propellants. Combust. Flame 2001, 127(3): 2059-2065.
  • [22] Pang, W.-q.; Zhang, W.; Xu, H.-x. Effects of Different Nanometric Particles on the Properties of Composite Solid Propellants. Propellants Explos. Pyrotech. 2014, 39(3): 329-336.
  • [23] Kuibida, L. V.; Korobeinichev, O. P.; Shmakov, A. G. Mass Spectrometric Study of Combustion of GAP- and ADN-based Propellants. Combust. Flame 2001, 126(3): 1655-1661.
  • [24] Weiser,V.; Eisenreich, N.; Baier, A. Burning Behavior of ADN Formulations. Propellants Explos. Pyrotech. 1999, 24(3): 163-167.
  • [25] Chan, M. L.; Reed, R.; Turner, A. Properties of ADN Propellants. In: Proc., 5th, International Symposium on Special Topics in Chemical Propulsion, Combustion of Energetic Materials. (Kuo, K. K.; de Luca, L. T., Eds.), Begell House, New York, 2002, pp. 492-501.
  • [26] Ramaswamy, A. L. Energetic-Material Combustion Experiments on Propellant Formulations Containing Prilled Ammonium Dinitramide. Combust. Explos. Shock Waves 2000, 36(1): 119-124.
  • [27] Zhang W.; Liu F.-l.; Fan, X.-z. Interaction and Compatibility of ADN with Compositions of Propellant by Thermal Analysis Method. Journal of Solid Rocket Technology 2014, 37(5): 666-671.
  • [28] Teipel, U.; Heintz, T.; Krause, H. H. Crystallization of Spherical Ammonium Dinitramide (ADN) Particles. Propellants Explos. Pyrotech. 2000, 25(2): 81-85.
  • [29] Palmucci, I. ADN-Based Double Oxidizer Solid Propellants Formulations. Dissertation, Politecnico di Milano, Milan, Italy, 2014.
  • [30] Klapotke, M. T. Chemistry of High-Energy Materials. 3rd ed., De Gruyter, 2015, ISBN 978-3-11-043932-8.
  • [31] Korobeinichev, O. P.; Paletsky, A. A.; Tereschenko, A. G. Structure of Ammonium Dinitramide Flame at 4.0 MPa. In: Combustion of Energetic Materials (Kuo, K. K., Ed.), Begell House Inc., New York, Wallingford, 2001, pp. 486-491
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d4e22399-b442-4186-a411-eaf4d8453a79
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