Analysis of Double Base Propellant Infuence on Detonation Process of Ammonals

• Autorzy: Maranda A. , Lipińska K. , Lipiński M.
• Języki publikacji: EN

Abstrakty

EN

Aluminum powder has been applied to various types of mining and military explosives for over a hundred years. A known solution is its application as an additive to ammonium nitrate that enhances detonation ability and detonation parameters. Besides aluminum powders, organic fuels are used as ammonals components. In the present work reuse of double base propellants as components of ammonals was proposed. The results of detonation velocity and performance measurements of double base propellants and ammonals mixtures are presented.

Słowa kluczowe

EN

ammonium nitrate based explosives; detonation parameters

• Czasopismo: Central European Journal of Energetic Materials
• Rocznik: 2010
• Tom: Vol. 7, nr 2
• Strony: 145--159
• Opis fizyczny: Bibliogr. 15 poz.

Twórcy

autor

Maranda A.

autor

Lipińska K.

autor

Lipiński M.

• Military University of Technology, 2 Kaliskiego St., 00-908 Warsaw, Poland Zakłady Metalowe MESKO S.A., 122 Legionów St., 26-110 Skarżysko-Kamienna, Poland,

Bibliografia

• [1] Urbański T., Chemistry and Technology of Explosives. vol. III. Pergamon Press. Oxford-London-Edinburgh-New York-Toronto-Sydney-Paris-Braunschweig 1967.
• [2] Escales R., Pat. USA, 24, 377, 1899.
• [3] Escales R., Pat. Belg., 145, 599, 1899.
• [4] Roth G., Pat. Ger., 172, 327, 1900.
• [5] Cook M.A., Filler S.A., Keyes R.T., Partridge W.S., Ursenbach W.O., Aluminized Explosives, J. Phys. Chem., 1957, 61(2), 189-196.
• [6] Cook M.A., The Science of High Explosives, Reinhold PC, New York 1959.
• [7] Maranda A., Research on the Process of Detonation of Explosive Mixtures of the Oxidizer Fuel Type Containing Aluminium Powder, Propellants Explos. Pyrotech., 1990, 15(4), 161-165.
• [8] Keicher T., Happ A., Kretschmer A., Sirringhaus U., Wild R., Influence of Aluminium/Ammonium Perchlorate on the Performance of Underwater Explosives, ibid., 1999, 24, 140-143.
• [9] Maranda A., The Role of Aluminium Powder in the Process of Detonation of Condensed Explosives, 5th Int. Conf. EURO-PYRO’93, Strasbourg, June 6-11, 1993. 419-424.
• [10] Jing Ping Lu, Fransom M.D., Cliff M.D., Evaluating the Effect of Ultrafine Aluminum in Metalized Explosives Using Plate Dent Tests, 34th Int. Annu. Conf. ICT, June 24-27, 2003, 128/1-128/14.
• [11] Cooper P.W., Explosive Engineering, Wiley-VCH, New York 1996.
• [12] Radwan M.A., Explosive Characteristics of Aluminized Plastic Bonded Explosives Based on Octogen and Polyurethane Binder, 32nd Int. Annu. Conf. ICT, Karlsruhe, July 3-6, 2001, 44/1-44/9.
• [13] Maranda A., Nowaczewski J., Trzciński W., Detonation of Aluminized Explosives with Sodium Azide, 6th Int. Seminar EURO-PYRO’95, Tours, June 5-9, 1995, 421- 427.
• [14] Gogulya M.F., Dolgoborodov A.Yu., Brazhnikov M.A., Makhov M.N., Arkhipov V.I., Explosive Performance of Aluminized NQ-based Compositions, 32nd Int. Annu. Conf., Karlsruhe, July 3-6. 2001, 77/1-77/14.
• [15] Zygmunt B., Detonation Parameters of Mixtures Containing Ammonium Nitrate and Aluminium, Centr. Europ. J. Energ. Mater. (CEJEM), 2009, 6(1), 57-66.