RU2072507C1 - Bullet for small arms cartridges - Google Patents

Abstract

FIELD: small arms cartridges. SUBSTANCE: bullet has an envelope with a lead jacket and slug placed in it. The slug head top has a point, whose height does not exceed 0.7 of the bullet caliber, and the base diameter does not exceed 0.68 of the bullet caliber. EFFECT: enhanced efficiency of bullet wounding effect. 2 dwg

Description

 The invention relates to small arms, namely, bullets designed to destroy openly located live in body armor, defeat manpower in field shelters of light type, engage enemy firing points, manpower in lightly armored military equipment, destroy unarmored and lightly armored objects of military equipment.

 A known bullet with a steel core to a 7.62 mm cartridge of the 1943 model, which contains a shell, core and lead shirt. The shirt has the shape of a cup. The core with a cylindrical leading part in the head has a truncated cone shape with a blunting diameter equal to 0.43 bullet caliber. The core is made of mild steel and does not meet modern requirements in terms of the damaging effect and is intended to defeat only the enemy’s manpower, which does not have protective equipment.

 An ordinary 5.45 mm bullet is known, which contains a shell, a core and a lead shirt. A distinctive design feature is that in the head and tail parts of the bullet has the shape of a truncated cone with a blunting diameter equal to 0.6 bullet caliber. The lead shirt has the shape of a cup and is oriented bottom to the head of the bullet.

 This bullet is designed to defeat only the open manpower of the enemy, which is not protected by any means of defense.

 Another bullet with a steel core to a 7.62 mm rifle cartridge is known, which contains a shell, a core and a lead shirt made in the shape of a cup. The core is made with a cylindrical leading part, the head part is spherical with a blunt end, the diameter of which is 0.46 bullet caliber.

 The closest in technical essence and the achieved result to the proposed pool is a bullet to a 5.45 mm cartridge with a bullet of increased penetration (1), selected as the closest analogue. This bullet contains a shell, a core and a lead shirt made in the shape of a cup. The core is made with a cylindrical leading part, and the head part has a spherical shape with a blunting diameter not exceeding 0.35 caliber paths.

 The disadvantage of this bullet, as well as bullets selected as analogues, is inefficiency in the defeat of lightly armored vehicles and shelters, as well as enemy manpower in bulletproof vests at medium distances.

 This fact is explained as follows. When such a bullet hits a solid barrier, the shell is destroyed and their penetrative effect is provided by the core. Tests found that in cores having a blunting on the head, up to 20 kinetic energy of the bullet is spent on the destruction of the shell. In addition, the cores, due to the blunting, are located in the pool shell at a certain distance from the top of the bullet, as a result of which, when meeting an obstacle, up to 5 kinetic energy is spent squeezing the top of the bullet before the destruction of the shell. Thus, the influence of only these two factors sharply reduces the core efficiency upon penetration. In addition, it is obvious that the dumber the head part of the core, the more energy is needed to break through metal barriers.

 Tests have established that this bullet has a breakdown effect at short ranges for certain types of body armor and steel barriers 3 to a thickness of 16 mm, but ineffective at medium distances. The cores of these bullets (due to the blunting in the head part) do not have a breakdown effect on armored barriers, since when a blunted core pad strikes the armor, the armor exerts considerable resistance, since the armor is under pressure over a larger area and under the influence of those arising in the head part stress core, its upper part begins to collapse, which prevents passage through the armor.

 The objective of the invention is to increase the effectiveness of the damaging effect of the bullet.

 The technical result is achieved by changing the shape of the top of the head of the core, providing an increase in the damaging effect, namely, the head of the core has a tapering height not exceeding 0.7 caliber bullets with a base diameter of not more than 0.68 caliber bullets.

 In FIG. 1 shows a longitudinal section through a bullet including a shell 1, a core 2, and a lead jacket 3; in FIG. 2 node 1 in FIG. one.

As noted, the penetrative effect when meeting with solid obstacles is carried out by the core of the bullet. The kinetic energy of the core when meeting an obstacle is essential for the damaging effect. Experience shows that when solid obstacles are damaged, energy is spent on
crushing the head of the bullet shell (if there is space between the top of the core and the shell and the more it is, the more energy is consumed);
destruction of the bullet shell;
passing the barrier;
forbidden action. The less energy is spent on the first three of the above factors, the greater the backward (i.e., useful) action. In the proposed bullet design, the reduction of overhead energy is achieved due to the shape of the top of the head of the core. The calculations and experiments established that the optimal point sharpening of the tops of the cores is a height not exceeding 0.7 bullet caliber, with a base diameter of not more than 0.68 bullet caliber. The effect of this combination is explained as follows: penetration of the armor (steel sheet) in this case occurs due to the fact that the introduction of the tip of the core into it begins at a pressure of a small area, which contributes to the formation of a significant dent in the armor in the form of a crater. Entering the crater and penetrating into the armor, the head part of the core, which has high strength properties, displaces the metal in all directions and is in direct contact with the armor over the entire surface. Volumetric compression conditions increase the resistance of the head to fracture, and contribute to the preservation of its integral state. As it introduces, the core speed drops, and therefore, the inertial resistance of the armor decreases, which also contributes to maintaining the state of the core. When the core is introduced to a certain depth, the top of the head part begins to destroy the back surface of the armor, forming at first a small, and then an ever increasing outlet. After the core leaves the armor, significant residual stresses remain in it, which can cause it to split into two or more parts. These phenomena can occur immediately after the core leaves the armor or after some time has passed. Thus, cores having a point on top of the above sizes make penetration of the armor (steel sheets) by the method of "puncture" rather than "stamping", which occurs in cores with a blunted head part. It is known from theory that when breaking through the method of “puncture”, the energy consumption for overcoming obstacles sharply decreases, the core with a pointed head part is practically in focus with the tip of the shell, which makes the head part more “rigid”. As a result, when meeting with a solid barrier, crushing of the shell does not occur (its destruction begins immediately), and, consequently, no energy is required;
Obviously, the advantage of the sharp head part of the core over blunt during destruction of the shell.

 Thus, the presence on the head of a core with a sharp tip with a height of up to 0.7 caliber bullets and a base diameter of not more than 0.68 caliber bullets allows not only to increase the effectiveness of defeating the enemy’s manpower in bulletproof vests, but also to hit lightly armored vehicles and manpower located in it, and, therefore, to a greater extent meets modern requirements. The indicated dimensions of the pointed tip of the head of the core does not reduce manufacturability, since the manufacture of such cores can be stamped and then sharpened on modern automatic lines.

Claims (1)

 A bullet for small arms cartridges, containing a shell with a lead shirt and a core placed in it, characterized in that the tip of the head of the core has a tapering height not exceeding 0.7 caliber bullets, with a base diameter of not more than 0.68 caliber bullets.

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