DE2017633A1 - Ballast-contng propellant with reduceddetona - weapons - Google Patents

Abstract

Propellant containing a ballast material which is turned to mist, vapour or gas during firing of propellant and is discharged with propellant combustion gases, pref. (i) non-toxic heavy metals not taking part in burning, e.g. Fe or Cu, or their alloys or cpds. and/or (ii) substances giving off O2 which improve O2-balance of propellant powder and consequently its energy and heat explosion, e.g. Ba- or Fe oxide, is used for recoilless weapons to be operated at lower detonation pressure.

Description

Title: "Friction charge with reduced bang pressure with no recoil Weapon systems ".

Increasingly, recoilless weapons are used to combat harder and softer enemy targets by the single shooter application.

In principle, a distinction is made between rockets, ie. Self-propelled bullets in the style of the American BAZOCKA and jet cannons in the style of the Swedish KARL GUSTAV.

There are also known solutions in which the freedom from recoil by Ejection of a compensation mass opposite to the firing direction from the launcher tube is obtained, e.g.

at the German PANZERFAUST. 44.

The requirements for the weapon with regard to the overall length, which are specified in the As a rule, should not be longer than 1.50 m, the burn time is very short propellant charges carrying projectiles.

It has been found that the inevitably occurring high combustion chamber pressures and large outflow speeds lead to the ejection of powder particles from the burning propellant charge. This outside The weapon burns powder particles in addition to the gas pressure and the gas velocity resulting bang bang pressure centers, the physiologically questionable Can have effects on the Sagittarius.

An increase in the projectile mass or the projectile speed, i.e. the muzzle energy when the projectile emerges from the weapon is determined by the physiological repercussions on the current devices in use are practical limited.

A significant increase leads to noticeable damage to the shooter.

The aim of the invention is a free charge for any combination, which is suitable to bring about a substantial reduction in the blast pressure.

The propellant charge according to the invention is based on the principle consideration, that the thrust causing the projectile acceleration is essentially the product The speed of the outflowing gases and the mass passed through have so far been running the investigations and measures to improve the performance of such systems predominantly in the direction of increasing the gas velocity. That necessarily leads to the phenomena described at the beginning.

When using the propellant charge according to the invention, the gas velocity is and the resulting reduced performance by a substantial increase of the mass throughput compensated. The propellant charge is characterized in that it contains ballast material that fogges the propellant charge while it is burning, is vaporized or gasified and flows out with the flue gases of the friction charge.

The addition of ballast results in a reduction in the Flow velocity also an increase in the converted pressure ratio, which has a correspondingly lower exhaust gas pressure to the pole.

Experiments have shown that when using the propellant charge according to the invention in the rocket short-term burner as well as the specific Improve impulse and at the same time significantly reduce the bang pressure.

According to the invention, the ballast material preferably consists of non-toxic Heavy metals, e.g. iron, brass or hard metals, which are in finely divided Form, e.g. as wire mesh or metal powder, in the overall structure of the propellant charge are introduced.

Furthermore, according to the invention, the ballast material can consist of oxygen releasing substances exist like iron oxide or the oxide of another metal, e.g. barium oxide to reduce the oxygen Silane and thus the efficiency to improve the powder combustion, which at the same time increases the specificity Pulverengrgie (explosion heat) is achieved.

The arrangement of the ballast material in the propellant charge can be different Way: a) by separate arrangement, e.g. in plastic bags or through direct attachment to the propellant charge holder; b) by applying to the surface the propellant charge elements, e.g. by rolling or gluing; c) by applying the proportion of ballast on part of the propellant surface for the purpose of inhibition, to show a geometrically progressive burn-off, see B. through external insulation of raw powder.

For example, there have been experiments with a flake combustion chamber 650 cm3 volume and a nozzle cross-section ratio - narrowest nozzle cross-section / Firing chimney cross section 5 0.8 carried out.

The normal cargo was shot without additional ballast, in the case of the ballast propellant charges the ballast consisted of copper wool, which was arranged lengthways between the layers Fuel plates ton 1 mm thick was incorporated.

Normal load: Propellant weight 248 g Maximum pressure (Quartz measuring device) 350 at pulse 40 kps blast pressure (side nozzle) 690 mb ballast charges: I II III fuel weight 240 233 221 g ballast weight 70 150 142 g ballast percentage (based on total cargo weight) 22.6 39.1 39.1% maximum pressure (quartz measuring device) 580 550 500 at impulse 45 48 44 kps blast pressure (side nozzle) 450 300 220 mb From the Test results can be seen that with a ballast content of approx. 40% the same maximum pressure, the bang pressure (in mb) is reduced far less than the eleventh and an increase in impulse of 20 *, based on normal cargo without additional ballast, could be achieved.

Claims (7)

Claims Propellant charge with reduced blast pressure in recoilless weapon systems, characterized in that the propellant charge contains a ball-type material, which during of the propellant charge is nebulized, vaporized or gasified and with the propellant charge gases emanates. 2. Propellant charge according to claim 1, characterized in that -the ballast material from heavy metals not involved in the combustion such as iron or copper or consists of heavy metal alloys or compounds. 3. propellant charge according to claim 1, characterized in that the ballast material consists of oxygen-releasing substances that reduce the oxygen balance of the propellant powder and thus improve its energy, such as barium oxide or iron oxide. 4. propellant charge according to claim 1, characterized in that of the Ballast material from a combination / compounds according to claim 5 and claim 6 consists. 5. propellant charge according to claim 1 to 4, characterized in that the ballast material - separated from the powder - is arranged. 6. propellant charge according to claim 1 to 4, characterized in that the ballast material on the powder surface by rolling, gluing or the like Measures attached to the propellant charge. 7. propellant charge according to claim 1 to 4, characterized in that the ballast material is applied to part of the propellant charge surface.