RU2644777C1 - Ammunition - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: invention relates to military equipment and, in particular, to ammunition – artillery shells, cruise missiles, bombs and other similar kinds of ammunition. Ammunition is characterized by the fact that it contains a metal shell, explosive – BB and refractory material. Latter is placed between the explosive and the inner wall of the shell. Refractory material provides the possibility of protecting the shell of the ammunition from the inside of the heat at the time of the explosion. At the same time, it is possible to create pressure inside the shell during the explosion, in consideration of its retained tensile strength.

EFFECT: technical result is the maximum preservation of the qualities and properties of the shell metal necessary for the effective use of the power of the munition.

1 cl, 1 dwg

Description

The invention relates to military equipment and, in particular, to ammunition - artillery shells, cruise missiles, bombs and other similar types of ammunition.

During the explosion of ammunition due to the high temperature of the products of the explosion (TNT - 3050 ° C), the process of instant heating of the shell of the ammunition occurs, as a result of which the hot metal of the shell (melting point of cast iron - 1200 ° C, steel 1450 ° C) loses its tensile strength.

Explosion products prematurely destroy the shell of ammunition. The pressure at the moment of shell destruction sharply drops, the shock wave gradually weakens, slows down and goes out.

Known ammunition, including a shell made of low carbon steel, modified with aluminum and vanadium and filled with explosives - EXPLOSIVES, while the shell chamber is formed by multi-transition cold extrusion of a bar stock (see RU 69225 U1, 10.12.2007).

This embodiment of the known device provides concomitant hardening and hardening of steel to achieve the specified strength characteristics of the shell of the munition.

However, the explosion of ammunition does not provide the necessary strength of the shell at a given point in time. The shell decays prematurely, the pressure in the chemical reaction zone rapidly drops, becomes insufficient to power the detonation wave front, and the detonation decays. Ammunition power is not used to the necessary extent.

The technical result of the invention is the maximum preservation of the qualities and properties of the shell metal necessary for the efficient use of ammunition power.

The necessary technical result of the invention is achieved in that the munition contains a metal shell, explosives and refractory material placed between the explosives and the inner wall of the shell, which provides protection of the latter from the inside from heating at the time of the explosion, while providing the possibility of creating pressure inside the shell during an explosion in based on its stored tensile strength.

In FIG. 1 shows a diagram of ammunition: position 1 - fuse; position 2 - explosive - BB; position 3 - refractory material; position 4 - shell of ammunition.

The shell 4 of the ammunition is coated on the inside with refractory material 3. Inside is placed BB 2. After the refractory material 3 has dried, it is checked that it is in good condition - uniformity of coating and absence of cracks.

After the initiation of the fuse 1, the explosive 2 is blown up. The explosion products create high temperature. Refractory material 3 prevents the transfer of high temperature to the inner wall of the shell 4. The preservation of the tensile strength of the shell 4 prevents a rapid pressure drop in the chemical reaction zone, which increases the possibility of using ammunition power.

Claims (1)

Ammunition, characterized in that it contains a metal shell, an explosive - EXPLOSIVES and refractory material placed between the EXPLOSIVES and the inner wall of the shell, providing the possibility of protecting the latter from the inside from heating at the time of the explosion, while providing the possibility of creating pressure inside the shell during an explosion based on its stored tensile strength.

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