Ammunition and explosives – Powder form – Composite type
Reexamination Certificate
2000-04-11
2002-01-01
Nelson, Peter A. (Department: 3641)
Ammunition and explosives
Powder form
Composite type
C102S288000, C102S289000, C102S430000, C102S433000, C102S202000, C102S202600, C102S701000
Reexamination Certificate
active
06334394
ABSTRACT:
This application claims Paris Convention priority of DE 199 17 633.7 filed Apr. 19, 1999 the complete disclosure of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
The invention concerns a propellant charge arrangement for barrel-weapons or ballistic drives.
The performance of chemically reacting propellant charges is determined essentially by the ratio of charge mass and its energy density to the mass of the object to be accelerated (projectile or rocket). One therefore always tries to match the mass of the propellant charge and its energy density to the specific case at hand.
In addition to conventional propellant charges, recently, arrangements comprising consolidated propellants of high energy density have been examined which are triggered by means of electrical energy, e.g. in the electro-thermal chemical cannon. Ignition and combustion of such consolidated propellants is problematic, since the charge arrangement has to be broken up and disintegrated, thereby requiring defined surfaces to achieve time-controlled ignition and combustion at high propellant charge conversion speeds.
This is also the case for recently examined liquid propellant charges which have to be converted into a corresponding dispersion.
For acceleration of projectiles in barrel-weapons, combustion of the propellant charge and acceleration of the projectile is a dynamic process which occurs within an extremely short time within which the gas evolution of the propellant charge must be matched to the mass of the projectile. One must also take into consideration the fact that, with acceleration of the projectile, the volume to be filled by the propellant increases. These overlapping processes must be matched to ensure that the projectile reaches the desired muzzle velocity. In this connection, the gas-pressure/time-curve is decisive. This is generally a Gaussian curve, i.e. the pressure increases very rapidly and exponentially to a maximum pressure and drops somewhat less steeply and exponentially with increasing acceleration of the projectile towards the muzzle. The conversion speed of the propellant charge has similar characteristics with a slightly more symmetric development of the Gaussian curve. For the drive performance, the pressure/time integral is decisive and has an upper limit given by the maximum admissible gas pressure in the charging room. The ideal case would be a trapezoidal pressure development, wherein the maximum pressure and also the muzzle pressure would be smaller, with the integral of the pressure/time curve being larger.
A conventional propellant charge arrangement (U.S. Pat. No. 5,612,506) comprises an electric ignition system disposed on the axis of the propellant charge room having a central rod electrode and several wire electrodes disposed at an axial distance from one another and insulated from one another. This structurally complicated electrode is surrounded concentrically by a wire basket which accommodates a powdery ignition substance, preferably polyethylene powder. The wire basket is surrounded concentrically by the oxidator, e.g. ammonium nitrate. The electrode structure should enable plasma ignition migration from the front to the rear through the propellant charge arrangement such that the propellant gas generation approximately follows the propulsion of the projectile in the barrel-weapon to result in an approximately trapezoidal pressure/time curve. Apart from the demanding and mechanically sensitive electrode construction, this propellant charge arrangement has very low energy density due to the fuel/oxidator selection and the relatively large inactive mass of the electrode structure.
It is the underlying purpose of the invention to provide a propellant charge arrangement consisting of a core charge and a consolidated propellant surrounding the core charge, which approximates, as closely as possible, the ideal trapezoidal development of the pressure/time curve during combustion.
SUMMARY OF THE INVENTION
This object is achieved by a propellant charge arrangement comprising a core charge of conventional construction having an ignition system and with a consolidated propellant surrounding the core charge which has its own high electrical energy ignition system which can be controlled in a delayed manner after triggering the ignition system for the core charge, wherein construction and arrangement of the consolidated propellant and its ignition system are selected such that, during combustion of the core charge, the consolidated propellant is disintegrated, by the triggering of its associated ignition system, into fragments of essentially regular geometry and the fragments are accelerated into the gas volume generated during combustion of the core charge.
While the core charge and its ignition system are of conventional construction, e.g. consist of a conventional gun powder which is ignited pyrotechnically or electrically, the propellant charge surrounding it comprises a consolidated propellant having its own ignition system. The core charge is initially ignited in the conventional manner and the ignition system of the consolidated propellant surrounding same is triggered in a delayed manner. The latter is an ignition system operating with high electrical energy, wherein a large amount of plasma energy is released locally e.g. by arc discharge, which can preferably be controlled in time and/or space. The consolidated propellant is thereby disintegrated into fragments in a defined sequence. Construction of the consolidated propellant and its arrangement as well as that of the ignition system can be effected such that fragments of relatively uniform geometry are generated, which consequently have relatively uniform surfaces to effect uniform ignition and combustion. With appropriate outer insulation and arrangement of the ignition system, these fragments are accelerated into the gas volume developed during combustion of the core charge and are completely transformed therein. With e.g. a barrel-weapon, the volume increase and pressure reduction due to the acceleration of the projectile are thereby immediately compensated for. This propellant charge arrangement structure reduces the maximum pressure, while maintaining the generated maximum pressure for a longer time. Instead of a peak, the pressure/time diagram has a pressure plateau with reduced pressure levels such that the projectile is accelerated with a lower gas pressure of longer duration. Moreover, the muzzle pressure is reduced without reducing the muzzle velocity.
The formation of fragments of essentially regular geometry can be achieved e.g. by providing the consolidated propellant with an essentially uniform design structure. This can e.g. be effected by inhomogeneities of essentially uniform geometric arrangement. When the ignition system is triggered, the consolidated propellant is broken up along the inhomogeneities and accelerated towards the inside in correspondingly uniform fragments, wherein the generated surfaces provide effective ignition and combustion.
With solid charges, the inhomogeneities can be formed e.g. by bordering layers between neighboring layers of the consolidated propellant. They are preferably disposed essentially linearly in a pattern.
A structure of this type can be realized in a particularly simple manner by arranging the consolidated propellant in at least two layers, wherein the linear inhomogeneities in one layer extend at an angle, e.g. at a right angle, with respect to the linear inhomogeneities in the other layer. In this case, the consolidated propellant comprises individual strips of propellant which are separated from one another by the inhomogeneities or bordering layers, wherein the strips of the two layers disposed one on top of the other, cross each other.
Disintegration of the consolidated propellant into uniform fragments can be realized or supported when the ignition system of the consolidated propellant comprises electrical conductors associated with an essentially uniform arrangement of the consolidated propellant. The energy required for d
Gütlin Ernst
Maag Hans Jürgen
Zimmermann Gerd Karl Werner
Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung
Nelson Peter A.
Vincent Paul
LandOfFree
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