Compacted Modified Propellant Blocks as Traveling Charge in the Hybrid Shot Scheme

The burning of compacted modified propellant charges applied as a traveling charge in the hybrid shot scheme was studied. The block charges were manufactured by pressing fine propellant grains coated by a thin film of polyvinyl butyral. A stick from several pressed pellets was insulated over its lat...

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Veröffentlicht in:Propellants, explosives, pyrotechnics explosives, pyrotechnics, 2014-12, Vol.39 (6), p.881-889
Hauptverfasser: Ermolaev, Boris Sergeevich, Romankov, Alexander V., Sulimov, Alexey A., Crowley, Anna B.
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Sprache:eng
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Zusammenfassung:The burning of compacted modified propellant charges applied as a traveling charge in the hybrid shot scheme was studied. The block charges were manufactured by pressing fine propellant grains coated by a thin film of polyvinyl butyral. A stick from several pressed pellets was insulated over its lateral surface by a thin layer of silicon paste, glued to the back of the projectile and inserted into the barrel of the 23‐mm smooth‐bore laboratory gun. The loose‐packed accelerator charge was placed in the breech. Combustion was initiated by an igniter plug placed between the traveling and breech charges. A set of piezo‐quartz gauges placed in the breech and along the barrel, as well as a frame‐target device were used for recording characteristics of the firings. It is shown that blocks of this type, applied as the traveling charge, provide a stable burning process resulting in high ballistic performance. The block traveling charge preserves its integrity in the course of its motion along the barrel, and burning envelopes its total mass when pressure in the breach passes the maximum value. The descending portion of the pressure diagram demonstrates appreciable transformation, with convex or secondary hump sections. The shape of spatial pressure profiles behind the moving projectile is also transformed, and the pressure at the projectile butt end may be higher than the pressure in the breech. Compared to the conventional charges at the same maximum pressures the muzzle velocity increment attains 340 m s−1 (or 23 %) for a light 35‐g projectile and 200 m s−1 (or 19 %) for a heavy 104‐g projectile.
ISSN:0721-3115
1521-4087
DOI:10.1002/prep.201400154