RU2357195C1 - Armour-piercing bullet - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention concerns cartridge bullets for sniper rifle shooting at covered targets. Bullet includes shell, hard-alloy core including head and cylindrical tail parts, and lead jacket. Front section of head part of hard-alloy core is made in the conical shape, and rear section is made in the shape of tapered cone adjoining front cone directly by lesser base equal to front cone base. Front cone length is (0.3 - 0.5)d, top angle is 90 - 120°, tapered cone length is (0.6 - 0.8)d, generation line tilt angle of tapered cone is 5 - 15°, larger base diametre of tapered cone is equal to tail core part diametre, and total core length is (2 - 3)d, where d is bullet calibre.

EFFECT: enhanced penetrating efficiency and shooting dispersion.

1 dwg

Description

The invention relates to the field of military equipment and can be used in the development of new and modernization of standard ammunition of small arms with high penetration of a bullet.

One of the main types of small arms is a sniper rifle. In service with the army of the Russian Federation is a 7.62 mm SVD sniper rifle, which allows you to successfully solve a number of combat missions. The role of sniper weapons in the implementation of hostilities is constantly growing, since it is a high-precision weapon. At the same time, requirements for accuracy of fire, the penetration of bullets and the firing range of sniper cartridges are increasing.

The following bullet designs are known for sniper cartridges and bullets with increased breakdown action:

- 7.62 mm bullet of a sniper cartridge with a steel core (drawing No. 4-27408, TSNIITOCHMASH, inv. No. 20746);

- armor-piercing bullet with a steel core (RF patent No. 2133441, 07.20.1999);

- armor-piercing bullet with a carbide core (patent No. 2135940, 08.27.1999);

- armor-piercing bullet with a carbide core (patent No. 2150077, 05.27.2000).

The advantage of carbide core bullets compared to steel core bullets is a higher breakdown effect due to the creation of a higher lateral load of the carbide core due to the high specific gravity (γ) of the hard alloy (γ≥14.5 g / cm ³ ), while the specific gravity of steel γ = 7.8 g / cm ³ . In addition, the strength of the hard alloy is significantly higher than that of steel.

As a prototype of the invention, the design of the armor-piercing bullet according to the patent No. 2150077 of the Russian Federation, containing a hard-alloy armor-piercing core with a lively pointed head part, was selected. The lively shape of the head part, made according to the outline of the inner surface of the shell of the bullet, ensures alignment of the location of the carbide core inside the shell of the bullet, which ensures high accuracy of fire.

The disadvantage of this prototype is the insufficient penetration of the bullet when firing at strong barriers, for example, protective plates of body armor, as well as the impossibility of automated manufacturing of a carbide core of this form.

The technical task of this invention is to increase the breakdown action of a bullet while ensuring accuracy of fire at the level of sniper cartridges and the possibility of automated manufacturing of a carbide core.

The problem is solved in that in a pool containing a shell, a lead shirt and a carbide core having a head part, the front portion of which is made in the form of a cone, and a tail cylindrical part, the rear portion of the head part of the core is made in the form of a truncated cone directly adjacent to the front the cone with its smaller base, equal to the base of the front cone, while the length of the front cone is (0.3 ... 0.5) d, the angle at its apex is 90 ... 120 °, the length of the truncated cone is (0.6 ... 0.8) d, the angle of inclination developing is 5 ... 15 °, the diameter of the larger base of the truncated cone is equal to the diameter of the tail of the core, and the total length of the core is (2 ... 3) d, where d is the caliber of the bullet.

The invention is illustrated in the drawing, which shows a bullet of the proposed design.

The bullet contains a shell 1, a hard-alloy core 2 and a lead jacket 3. A hard-alloy core has a head and a tail.

The head part of the carbide core is made in the form of two cones arranged in series: straight and truncated, with the angle at the apex of the straight cone α ₁ = 90 ... 120 °, its length l ₁ = (0.3 ... 0.5) d, where d - caliber bullets.

A truncated cone is a transition element from a straight cone to the cylindrical tail of the carbide core. The angle of inclination of the generatrix of the truncated cone is α ₂ = 5 ... 15 °, and its length is l ₂ = (0.6 ... 0.8) d. The diameter of the base of the truncated cone is equal to the diameter of the cylindrical tail of the carbide core. The lateral surface of the truncated cone is practically tightly adjacent to the inner surface of the shell, thereby achieving alignment of the location of the carbide core with the shell and high accuracy of fire.

Lead jacket 3 fills the radial gap between the inner cylindrical surface of the shell 1 and the cylindrical surface of the carbide core 2. The length of the carbide core is l ₃ = (2 ... 3) d.

The implementation of the head part of the carbide core in the form of two cones arranged in series (straight and truncated) can reduce the resistance of the barrier, reduce contact stress in the area of the hole and thereby eliminate the destruction of the core and increase the breakdown effect of the bullet. In addition, this design of the head part of the carbide core provides the ability to automatically manufacture a carbide core, improve quality and reduce the cost of its manufacture.

The indicated parameters of the bullet are optimal to ensure high breakdown action of the bullet and high accuracy of fire.

Thus, a decrease in the angle at the apex of the straight cone is less than 90 ° and an increase in its length over 0.5d, as well as a decrease in the taper angle of the truncated cone less than 5 ° and an increase in its length over 0.8d, make it impossible to automate the manufacture of a carbide core, since In cases of friction, they prevent the automated extraction of the head of the core from the mold during its manufacture.

An increase in the conicity angle of the truncated cone over 15 °, an increase in the angle at the apex of the straight cone more than 120 °, and a decrease in its length less than 0.3d lead to a significant decrease in the penetration ability of the bullet due to an increase in the shape factor of the head part of the carbide core and an increase in the drag force.

Reducing the length of the truncated cone to less than 0.6d, as well as the length of the carbide core to less than 2d, reduces the penetration of the bullet due to the decrease in inertial mass acting on the obstacle during the penetration of the bullet.

An increase in the length of the carbide core above 3d leads to a decrease in the accuracy of fire, which is verified by experimental tests.

The principle of operation of the proposed bullet is as follows. When a bullet interacts with an obstacle, the head of the shell collapses (disperses), and the carbide core, without deforming, penetrates the obstacle and strikes the target with its kinetic energy.

The proposed bullet design is used in the development of the domestic 7.62 mm rifle sniper cartridge with a carbide core BS.

Claims (1)

An armor-piercing bullet containing a shell, a lead shirt, and a carbide core containing a head part, the front section of which is made in the form of a cone, and a tail cylindrical part, characterized in that the head part is made with a rear section in the form of a truncated cone directly adjacent to the cone of the front section its smaller base equal to the base of the cone of the front section, while the length of the cone of the front section is (0.3-0.5) d, the angle at its apex is 90-120 °, the length of the truncated cone is (0.6-0.8 ) d, the angle at womb its generatrix is 5-15 °, the diameter of the large base of the truncated cone is equal to the diameter of the rear cylindrical portion of the core, and the total length of the core is equal to (2 -3) d, where d - caliber bullets.