Tytuł artykułu
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Warianty tytułu
Języki publikacji
Abstrakty
The algebraic formulae are derived, which determine the hydrodynamic parameters of the detonation products (pressure, specific volume, particle velocity, temperature, and propagation velocity of the annular detonation wave) at the front of the spatially two-dimensional detonation wave (annular wave), cycle - initiated on the external surface of a cylindrical gas explosive mixture charge. The results can be applied, among other things, in computer simulation of the cumulation processes.
Czasopismo
Rocznik
Tom
Strony
3--18
Opis fizyczny
Bibliogr. 39 poz., wykr.
Twórcy
autor
- Military Institute of Armament Technology, Prymasa S. Wyszyńskiego 7, 05-220 Zielonka, Poland
Bibliografia
- 1. M.A. Cook, The science of high explosive, Reinhold Publ. Corp., New York - London 1958.
- 2. M.A. Cook, Explosives - a survey of technical advances, Industrial and Engineering Chemistry, 60, 7, 1968.
- 3. M.A. Cook, The science of industrial explosives, Graphic Service and Supply Inc., New York 1974.
- 4. A.F. Bielyaev, Combustion, detonation and work of explosion of condensed Systems [in Russian], Nauka, Moskva 1968.
- 5. F.A. Baum, L.P. Orlenko, K.P. Stanyukovich, W.P. Chelyshev, B.I. Shekhter, Explosion physics [in Russian], Nauka, Moskva 1975.
- 6. A.N. Dremin, S.D. Savrov, W.S. Trofimov, K.K. Shvedov, Detonation waves in condensed media [in Russian], Nauka, Moskva 1970.
- 7. M.A. Nettleton, Gaseous detonations: their nature, effects and control, Chapman and Hall Ltd., London - New York 1987.
- 8. W. Fickett, W.C. Davis, Detonation, University of California Press, Berkeley - Los Angeles - London 1979.
- 9. R. Cheret, Detonation of condensed explosives, Springer - Verlag New York, Inc., New York 1993.
- 10. E. Włodarczyk, Fundamentals of detonation [in Polish], WAT, Warszawa 1995.
- 11. E. Włodarczyk, Fundamentals of explosion mechanics [in Polish], PWN, Warszawa 1994.
- 12. K.K. Andrev, A.F. Bielyaev, Theory of condensed explosives [in Russian], Oborongiz, Moskva 1960.
- 13. W.K. Bobolev, In collection - explosion physics [in Russian], Ed. AN SSSR, Moskva 1953.
- 14. A. Maranda, J. Nowaczewski, E. Włodarczyk, B. Zygmunt, Some detonation properties of aluminium dust sensitized slurry explosives, J. Tech. Phys., 20, 3, 1978.
- 15. A. Maranda, J. Nowaczewski, B. Zygmunt, The laboratory and testing ground study and elaboration of technology of slurry explosives [in Polish], Doctoral thesis, WAT, Warszawa 1977.
- 16. B. Zygmund, E. Włodarczyk, A. Maranda, J. Nowaczewski, M. Postek, Detonation properties of condensed explosives the sllurry grade with different texture [in Russian], FGV, 18, 3, 1982.
- 17. E. Włodarczyk, Experimental characteristic of the one-dimensional detonation waves in high explosives. Review of literature [in Polish], Biul. WAT, XLV, 3, 1996.
- 18. E. Włodarczyk, On hydrodynamic stationary theory of jet formation, J. Tech. Phys., 35, 3, 1994.
- 19. E. Włodarczyk, The impact direction and velocity of the detonation wave and of the liner apex angle on parameters of a shaped charge jet and slug as well as on explosively formed penetrator, J. Tech. Phys., 35, 4, 1991.
- 20. P. Walters, J.A. Zukas, Fundamentals of shaped charges, John Wiley and Sons, New York - Chichester - Brisbane - Toronto - Singapore 1989.
- 21. H. Nowak, D. Smoleński, Shaped charges in military and mining and industry [in Polish], MON, Warszawa 1994.
- 22. K. Jach, Computer simulation of cumulation phenomenon [in Polish], Doctoral thesis, WAT, Warszawa 1990.
- 23. K. Jach, R. Świerczyński, E. Włodarczyk, Computer simulation of the processes of shaped charge jet formation and penetration one into an armour plate, J. Tech. Phys., 34, 4, 1993.
- 24. E. Włodarczyk, Production and study properties of sintered materials for liners of schaped charges [in Polish], Report No. 0S00102105, WAT, Warszawa 1996.
- 25. G.J. Taylor, The dynamics of the combustion products behind plane and spherical detonation fronts in explosives, Proc. Roy. Soc., A200, s. 235, 1950.
- 26. L.D. Landau, E.M. Lifshic, Mechanics of continous media [in Russian], Fiz-Mat. Lit., Moskva 1954.
- 27. E. Włodarczyk, Hydrodynamic interpretation of the phenomenon of detonation retonation, J. Tech. Phys., 33, 1, 1992.
- 28. B.W. Aivazov, Ya.B. Zeldovich, Creation strong detonation wave in contracting tube [in Russian], Zh.E.T.F., 17, 10, 1947.
- 29. E. Włodarczyk, Generators of concentric spherical and cylindrical detonation waves, J. Tech. Phys., 24, 3, 1983.
- 30. E. Włodarczyk, Concentrators of detontion wave [in Polish], Biul. WAT, XXXII, 3, 1983; Engng. Trans., 31, 3, 1983.
- 31. G. Guderley, Starke kugelige und zylindrische Verdichungsstosse in der Nahe des Kugelmittelpunktes bzw. der Zylinderachse, Luftfahrtforschung, 19, 9, 1942.
- 32. Ya.B. Zeldovich, Convergent cylindrical detonation wave [in Russian], Zh.E.T.F., 36, 1959.
- 33. E. Włodarczyk, Propagation and reflection of concentric detonation waves in detonating gas mixtures [in Polish], Biul. WAT, XLVI, 4, 1997.
- 34. E. Włodarczyk, M. Kowalski, Z. Glodowski, Analysis of concentric detonation wave characteristics and concentration parameters at the fronts of waves reflected at rigid core [in Polish], Biul. WAT, XLVI, 4, 1997.
- 35. Ch.L. Mader, Numerical modeling of detonations, University of California Press, Berkeley - Los Angeles - London 1997.
- 36. E. Włodarczyk, Generators of one-dimensional detonation wave [in Polish], Biul. WAT, XL, 9, 1991.
- 37. E. Milewski, Experimental and theoretical optimization of explosive formed projectile [in Polish], Doctoral thesis, WAT, Warszawa 1997.
- 38. E. Włodarczyk, On the shape of the annular detonation wave front, J. Tech. Phys., 41, 1, 2000.
- 39. S. Abarbanel, The propagation of converging detonation waves, Israeli J. Technol., 5, 4, 1967.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT5-0001-0083