UA53804C2 - Armour-piercing bullet and method for making it - Google Patents

Abstract

The present invention relates to an armour-piercing bullet intended for firearms used for defeating the vital forces of an opponent provided with individual armoured protection The purpose of this invention, which also relates to a method for manufacturing this bullet, is to increase the piercing action of said bullet The armour-piercing bullet of the present invention includes an envelope (1) with a head portion (A), a leading portion (B) and a tail portion (C) The envelope (1) also includes a piercing core (3) which is mounted in the head portion (A) so as to protrude therefrom, and which is attached to the inner surface of the tail portion (C) of said envelope (1), wherein said envelope also includes a sleeve (3) The ratio between the surface areas at the central cross-sections of the core (3) and of the bullet ranges from 0,3 to 0,4, while the ratio between their masses is at least of 0,45 and the ratio between the thickness of the envelope (1) in the tail portion (C) and the diameter of the core (3) ranges from 0,1 to 0,2. This invention also relates to a method for manufacturing this armour-piercing bullet having a piercing core (3) protruding from the envelope (1), wherein said method involves press-fitting the core (3) with the sleeve (2) into the envelope (1) and crimping the head portion (A) of said envelope (1). While crimping the head portion (A) of the envelope (1), the method also involves simultaneously crimping the tail portion (C) of said envelope (1) about the core (3).

Description

Description of the invention

The invention relates to small arms ammunition intended for defeating enemy personnel equipped with individual 2 armor protection.

There is a well-known pistol bullet containing a shell in the form of a glass, a shirt and a steel core, installed with the protrusion of the main part beyond the open end of the shell, in which the diameter of the steel core is 0.66...0.85 of the caliber of the bullet (patent KO Mo2038780, 1994 .|.

A known armor-piercing bullet containing a shell with an inner stepped surface having a head, 70 leading and tail parts. A shirt and an armor-piercing core installed with a protrusion in the main part are fixed in the shell. The core is fixed in the shell on the inner surface of the centering and tail parts. The shell is made stepped on the outer surface with a protruding leading surface and a caliber centering part located between its leading and tail parts, and the ratio of the thickness of the shell in the area of its centering part to the thickness in the area of the leading part is equal to 2...5 | patent KO Mo2077021, 1997 r.|. 12 In known designs of bullets | (patents KO Mo2018780, Mo20770211| armor penetration is carried out by a massive core, the diameter of which is 0.66...0.85 caliber (the ratio of the midel sections of the core and the bullet is 0.43,...0.74). at the same time, it was established that the main factor determining the bullet's armor-piercing effect is the specific energy of the core, since the shell and jacket practically do not participate in penetrating the obstacle.

The disadvantage of the design of known bullets is the low armor-piercing efficiency, which is determined by the ratio of the parameters of the bullet elements.

There is a known method of manufacturing armor-piercing bullets, which includes pressing the core with a jacket into the shell and crimping the main part of the shell (patent OZ Mo 3069748, 1962...

There is a known method of manufacturing armor-piercing bullets, preferably with an armor-piercing core protruding from the shell, which includes pressing the core with a jacket into the shell and crimping the main part of the shell, in which crimping from the main part of the shell is carried out with simultaneous thinning of its wall in the area of the adjacent section of the shell (He) to the core to obtain a smooth transition along the outer surface of the shell and core (patent KO Mo2082942, 1997.

In both known methods |OZ patent Mo3069748 and KO patent Mo20829421| manufacture of armor-piercing bullets with a core protruding from the shell, the landing surface under the tail part of the core is performed directly in the M shell. Then the core with the shirt is pressed into the shell of the bullet, after which the main part of the bullet is crimped.

When implementing this method, there is a possibility of a gap between the end of the core and the bottom of the shell due to the presence of an air cushion, which leads to deformation of the shell when fired. The need for a gap between the jacket and the shell can lead to differences in the jacket after bullet calibration. These defects cause dispersion of ballistic characteristics and reduce the stability of the bullet in flight, which ultimately reduces the penetrating effect of the bullet.

The task of the intended invention is to create an armor-piercing bullet with a high penetrating effect while maintaining the dimensions and recoil impulse similar to cartridges of the same type. "

Technically, the result is achieved by the fact that: C 70 is an armor-piercing bullet containing a stepped shell having a main, leading and tail parts, with an armor-piercing core installed in it with a protrusion in the main part, fixed on the inner surface of the tail part of the shell, and the shirt is made: with the ratio of the areas of the midel sections of the core and the sphere 0.3...0.4; with the ratio of the mass of the core and the ball - not less than 0.45; with a ratio of the thickness of the shell in the tail part to the diameter of the core of 0.1...0.2; i-th - in the method of manufacturing armor-piercing bullets with an armor-piercing core protruding from the shell, which includes pressing the core with a jacket into the shell and crimping the head part; simultaneously with the crimping of the main part of the shell, the tail part of the shell is crimped along the core. The invention is explained by drawings, where: av! 20 - Fig. 1 shows the construction of a sphere with a partial section; - Fig. 2 shows the position of the ball elements in the matrix and the punch before the crimping operation;

T" - Fig. 3 shows the ball after the operation of crimping the main part of the shell and the tail part of the shell along the core; - Fig. 4 shows a graph of the thickness of the penetrating steel sheet depending on the distance; 29 - Fig. 5 shows a graph of the dependence of the volume of the temporary pulsating cavity in the gelatin block on

GF) range. yuyu The bullet of the specified design consists of shell 1 (Fig. 1), shirt 2 and core 3. The shell of the bullet is made in a stepped form, consisting of main A, leading B and tail C parts. In the tail part of the shell, an internal cavity is made, along the surface of which the core is attached. 60 After installing the shirt 2 with the core Z in the shell 1 (Fig. 2), which has the shape of a straight glass, they are placed in the matrix 4. When moving the ball with the punch 5 in the matrix, the main shell is crimped until the shell closes on the core. A hole O is made in the punch, which is equal to the sum of the diameter of the core and twice the thickness of the shell wall. With further movement of the punch, a stressed-deformed state occurs in the main part of the shell, and further deformation of the shell occurs due to the pressing of the shell on the tail part of the core. As a result, a tight, gapless, connection of the shell with the core in the head and tail part and with the shirt will be formed (Fig. 3).

The specified essential features - the ratio of the dimensions and weight parameters of the bullet are interrelated, and a change in any of them leads to the loss of the bullet's armor-piercing characteristics. 1. The ratio of the mid-sections of the core and the sphere is 0.3...0.4, with a ratio of their mass not less than 0.45. A decrease in the ratio of the mid-sections of the core and the bullet below 0.3 will lead to a decrease in relative mass due to ballistic limitations on the length of the bullet, a decrease in the specific energy of the core, and therefore to a decrease in armor penetration. 2. The ratio of the shell thickness in the tail part to the diameter 0.1..002. In armor-piercing bullets of this 7/0 Design, the main factor determining the armor-piercing effect of the bullet is the specific energy of the core. The shell and jacket practically do not participate in the process of penetration into the obstacle, since, having greater plasticity compared to the obstacle and the core, they are destroyed upon impact, spending their kinetic energy on it.

Therefore, the thickness of the shell in the part where the core is fixed should be determined based on the strength of the bullet at the time of the shot, which corresponds to the ratio of the thickness of the shell to the diameter of the core of 0.1...0.2.

A further increase in the thickness of the shell leads to an increase in the passive mass of the bullet, and a decrease - to the dismantling of the bullet at the time of the shot.

The combination of all the characteristics given in the formula, which vary within the specified limits, in combination with the proposed method of manufacturing bullets allows to ensure high armor-piercing characteristics that surpass all known bullets of pistol cartridges.

Bullets of the described design were made applicable to cartridges for the Makarov pistol (PM) and tested by firing on steel sheets and gelatin blocks measuring 80 x 80 x 140 mm. The graph of the dependence of the thickness of its steel sheet that penetrates from the range of Я is presented in Fig. A4. At the same time, the standard cartridge does not penetrate a sheet with a thickness of 2.4 mm even when firing at close range. The graph of the dependence of the volume M of the temporary pulsating cavity (TPP) in the gelatin block on the distance I. is presented in Fig. 5. high school

It can be seen from the graph that the volume of the TPP in the ball of the proposed design E significantly exceeds the volume of the TPP of the regular PE ball. Thus, the cartridge with the bullet of the proposed design for the Makarov pistol is significantly superior i) to the standard cartridge in terms of penetrating and damaging action.

The bullet of the proposed design can be used in almost any type of cartridges for rifled small arms, but it is most effective for cartridges used to hit targets at short and medium distances.

The described method of manufacturing balls is applicable in all types of production from small batch to mass production on rotary automatic lines and allows to reduce the number of tools and the number of operations of the technological process. co

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Claims (2)

The formula of the invention of 1. An armor-piercing bullet containing a stepped shell, main, leading and tail parts, an armor-piercing core installed in it with a protrusion in the main part, which is fixed on the inner surface of the tail part of the shell, and a jacket, which differs in that the ratio of the areas of the midel sections of the core and sphere is 0.3...0.4 with the ratio of their mass not less than 0.45, and the ratio of the thickness of the shell in the tail part to the diameter of the core - 0.1...0.2. :with" 2. The method of manufacturing an armor-piercing bullet with an armor-piercing core protruding from the shell, which includes pressing the core with a jacket into the shell and crimping the main part of the shell, which is distinguished by the fact that at the same time as crimping the main part of the shell, the tail part of the shell is crimped on the core. 1 (95) (ee) o 50 s» F) ime) 60 b5