- citati u SCIndeksu: 0
- citati u CrossRef-u:0
- citati u Google Scholaru:[]
- posete u poslednjih 30 dana:10
- preuzimanja u poslednjih 30 dana:10
|
|
2010, vol. 58, br. 3, str. 5-31
|
Elektromagnetni top - istraživački projekat ili uskoro u upotrebi?
Electromagnetic gun: Still just a research project or the reality of the operational use?
Sažetak
Više od jednog veka istraživači u mnogim zemljama sveta bave se istraživanjem i razvojem elektromagnetnog (EM) topa koji bi bio u mogućnosti da lansira projektil vrlo velikim brzinama. U publikovanoj stručnoj literaturi veći broj radova odnosi se na teorijska razmatranja pojedinih fenomena električnog pogona projektila i na hardverska rešenja električnih uređaja i komponenata, a manje su dostupni javnosti radovi koji se odnose na borbenu upotrebu, koncepciju rešenja i mogućnosti primene takvog oružja u borbenim sistemima vojske. U radu se ukazuje na osnovne probleme projektovanja takvog sistema naoružanja i saopštavaju se informacije na osnovu kojih se može proceniti da li će, kada i na kakvoj platformi EM top biti uveden u operativnu upotrebu.
Abstract
For more than a century researchers in many countries have been engaged in research and development of electromagnetic (EM) guns in order to launch projectiles with very high speed. In published sources many papers are related to theoretical considerations of certain phenomena of electrically driven projectiles and hardware solutions for electrical devices and components required for projectile launching. The works related to the philosophy of combat use, the concept of solutions and possibilities of application of such weapon systems are, however, less available to the public. The intention of the authors of this paper is to point out the basic problems of designing such weapon systems, and to give the readers the information on the basis of which they can assess whether it is possible, when and on what kind of platform for the EM gun to be approved for the operational use.
|
|
|
Reference
|
|
Bishoni, R. (2007) Navy rail gun moves forward. 2.02., internet pretraživanje, februar 2010
|
|
Drosen, E.H. (1990) Aspects of modern tank design. Military Technology, br. 10
|
|
Ellis, R.L., i dr. (2004) Influence of bore and rail geometry on an EM naval railgun system. IEEE
|
|
Fanney, R. (2010) Navy fires EM cannon. internet pretraživanje, jan.-feb
|
|
Fletcher, R. (1991) The case for the Raisable tank gun. Military Technology, br. 10
|
|
Jandrić, M. (1993) Elektromagnetni topovi - kumulativna naučno-tehnička informacija. Beograd: VTI
|
|
Marshall, R. (2001) Railgunery: Where nave we been? Where are we going?. IEEE, br. 1
|
|
Mcfarland, J., Mcnab, I. (2003) A long rage naval gun. IEEE, No 1
|
|
Ogorkievicz, R.M. (1990) Future tanks guns. International Defense Review, No 12, Part I: Solid and liquid propellant guns
|
|
Ogorkievicz, R.M. (1991) Future tank guns. International Defense Review, No 1, Part II: Electromagnetic and elecrothermal guns
|
|
Page, L. (2009) US Navy orders new electric hyper kill rail gun
|
|
Paligorić, A., Ilić, R., Marjanović, B. (1988) Savremeni uređaji za ispitivanje projektila velikim i vrlo velikim brzinama. Naučno-tehnički pregled, 38(10): 16-24
|
|
Ristić, Z.B., Ilić, S.S., Kari, A.V. (2009) Karakteristike trzanja elektromagnetskog topa. Vojnotehnički glasnik, vol. 57, br. 4, str. 15-25
|
|
Satapathy, S., i dr. (2005) Design of an 8MJ integrated launch package. IEEE, br. 1
|
|
Schmidt, E.M. (2001) Comparison of the recoil of conventional and electromagnetic cannon. u: Shock and vibration, IOS Press, 8
|
|
Shope, S., i dr. (2001) Results of a study for a long range coilgun naval bombardment system. u: U.S. Army gun dinamics symposium (X), Austin, Texas, 23-26 apr
|
|
Sofge, E. (2007) For true sci-fi fans. 1internet pretraživanje, februar 2010
|
|
Tzeng, J., Schmidt, E. (2004) Advanced materials bring EM gun technology one step closer to the battlefield. AMPTIAC Quatterly, No 4
|
|
Zukas, A.J., i dr. (1985) Dinamika udara, pronikanie i probivanie tverdyh tel. Moskva: MIR
|
|
|
|