Identyfikatory
Warianty tytułu
Symulacja komputerowa ostrzału pancerza ceramicznego pociskami AP
Języki publikacji
Abstrakty
Model of elastic and plastic body behaviour of bullet and metal elements of armour, and model of elastic, plastic and fragile body behaviour of ceramics are presented in this work. Apart from this, modelling of penetrating ceramics with dimensions 50x50 mm 100x100 mm, and on different foundation with armour-piercing bullets AP of calibre 12.7 mm, is shown.
W pracy przedstawiono model ciała sprężysto-plastycznego zachowania się pocisku i metalowych elementów pancerza oraz model ciała sprężysto-plastyczno-kruchego zachowania się ceramiki. Ponadto pokazano modelowanie przebijania ceramiki o wymiarach 50x50 mm 100x100 mm i na różnym podłożu pociskami przeciwpancernymi AP kalibru 12,7 mm.
Czasopismo
Rocznik
Tom
Strony
7--21
Opis fizyczny
Bibliogr. 20 poz., rys., tab., wykr.
Twórcy
autor
- Military Institute of Armament Technology
Bibliografia
- 1. Jach K.: Computer modeling of cumulative phenomena. Assistant professor thesis, Military Technical University, Warsaw, 1990.
- 2. Jach K., Mroczkowski M., Świerczyński R, Wiśniewski A.: Theoretical and experimental analysis of behaviour of ceramic armour under influence of dynamic loadings. Materials from “III International Scientific and Technical Symposium MILITARY ARMS", Gdynia, 20-21. 09. 1995, pp. 313-326.
- 3. Jach K.: Numerical modeling of two-dimensional elastic/visco-plastic deformation of materials at dynamic loads. Proceedings of “11th AlRAPT International Conference", Kiev, Vol. 4, July 12-17, 1987, pp. 198-200.
- 4. Wilkins M. L.: Mechanics of penetration and perforation. Int. J. Engng Sci., Vol. 16, 1978, s. 793.
- 5. Steinberg D. J.: Equation of state and strength properties of selected materials. Lawrence Livermore Nat. of time free from schools. February 1991, UCRL-MA-106439.
- 6. Barbee T. In., Seaman Jr, L., Crewdson R, Curran D. R: Dynamic fracture criteria handicap ductile and brittle metals. J. Mater, 7, 1972, p. 393.
- 7. Steinberg D. J.: Computer studies of the dynamic yielding strength of ceramics. “The 18th International Symposium on Shock Waves", Sendai, Japan, July 21-26, 1991, p. C17.
- 8. Ahrens T. J., Taste In. H., Royce E. B.: Material strengths effect in the shock compression of alumina. J. Appl. Phys., 39, 1968, p. 4610.
- 9. Rupert N. L., Hoes F. And.: Penetration of long rods into semi-infinite bi-element targets. Ballistics' 93, Proceedings of, “14th International Symposium on Ballistics", Quebec, Canada, 26-29 September 1993, p. 469.29.
- 10. Hetherington J. G., Lemieux PF.: The effect of obliquity on the ballistic performance of two component composite armours. Int. J. Impact Engng., Vol. 15, Issue 2, 1994, p. 131.
- 11. Wiśniewski A.: Armours - Construction, Designing and Research. Scientific and Technical Publishing House, Warsaw, 2001, (in Polish).
- 12. Wiśniewski A., Żurowski In.: Ammunition and Armours. Radom Politechnic, Radom, 2001, (in Polish).
- 13. Wiśniewski A., Podgórzak P: Phenomena occurring during bullet penetration in composite armour. Problems of Armament Technology and Radiolocation, Military Institute of Armament Technology, vol. 70, 1999, pp. 21-32.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0305f40f-5915-43b8-b339-a7e55f52988a