RU2413172C1 - Bullet for small arms cartridge - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: bullet includes cover with lead jacket and slug, which are arranged in it. Cover is made from metal-ceramic anti-friction powder material. Cone-shaped head part of the cover has variable thickness which decreases from bottom of cone towards the top to 0.55 of thickness of cylindrical part of the cover. Head of slug has sharp top and is made from hard alloy.

EFFECT: improving target hitting efficiency.

1 dwg

Description

The invention relates to ammunition of small arms, and in particular to bullets designed to destroy firing points in lightly armored military equipment.

A known bullet that provides penetration of a fragmentation-proof bulletproof vest 6B2, felt and boards 25 mm behind it at a distance of up to 50 m (RF patent N2018780).

The disadvantages of this bullet are the following: high aerodynamic drag due to the obtuse shape of the protruding part of the core in the bullet head due to a step in the interface between the shell and the core, which leads to the occurrence of braking forces with the oncoming air flow during the flight of the bullet, which means and the deterioration of the accuracy of the battle and the loss of speed on the trajectory; the relatively low percentage of penetration of 6B2 vests at a distance of more than 50 m due to the blunt-shaped shape of the steel core, which, when faced with an obstacle, can lose stability and not hit the target.

A bullet for small arms cartridges is known, comprising a shell with a lead shirt and a core having a blunted head in it, while the head of the core is made with a length of at least 1.4 caliber bullets and a blunting diameter not exceeding 0.35 caliber (Patent SU 1838750).

The disadvantage of this bullet is its low efficiency in the defeat of armored vehicles and shelters.

When a bullet hits a solid barrier, the shell is destroyed and their penetrative effect is provided by the core. Tests established that in cores having a blunting on the head part, depending on the material of the shell in which they are placed, up to 15-20% of the kinetic energy of the bullet is spent on the destruction of the shell.

In addition, the cores, as a rule, are located in the pool shell at some distance from the top of the bullet, as a result of which, when meeting an obstacle, up to 5% of the kinetic energy is spent squeezing the top of the bullet before the destruction of the shell.

A known bullet for small arms cartridges, containing a shell with a lead shirt and a core placed in it, the top of the head of the core has a pointed height not exceeding 0.7 caliber bullets, a base diameter of not more than 0.68 caliber bullets (RF Patent 2072507) .

The disadvantage of this bullet is its low efficiency in the defeat of armored vehicles.

This is due to the fact that the shell of the bullet is made of steel, and the inner cone of the core practically coincides with the cone of the head of the core and there is no gap between the top of the core and the inner surface of the shell. Therefore, when meeting with an obstacle, the energy of the core primarily goes to the destruction (rupture) of the undeformed conical part of the steel shell.

A known bullet containing a shell in which a steel core is placed in a shirt, the shell is made of metal with thinning the top of its head, the shirt is made of lead, and the core is drop-shaped, the thinning of the top of the head of the shell is 0.1-0.5 thickness the walls of the shell, and the core from the head to the tail is made in the form of a truncated cone with a base at the head, the diameter of the core at the head is equal to the inner diameter of the cylindrical part of the shell (RF patent 213 3440).

The disadvantage of this bullet is its very low efficiency in the defeat of armored vehicles. In this case, the top of the shell is made of thinned steel, but nevertheless there is a significant part of the top having a shell in full thickness.

Thus, it can be seen from the above analogues and prototype that the influence of the shell as a factor sharply reducing the kinetic energy of the core, necessary for breaking through the barrier, is quite large.

The objective of the invention is to increase the effectiveness of the defeat of a protected target at a greater distance.

In the process of solving this problem, a technical result is achieved, consisting in reducing the loss of kinetic energy of the core when meeting with an obstacle.

The specified technical result is achieved by the claimed bullet for small arms cartridges containing a shell with a lead shirt and a core placed therein, the shell being made of cermet antifriction powder material, and the head cone-shaped part of the shell has a variable thickness decreasing from the base of the cone, where the thickness of the cone-shaped head equal to the thickness of the cylindrical part of the shell, up to 0.55 thickness at the top of the cylindrical part of the shell, the core head has a pointed th top and is made of hard alloy.

Cores, as a rule, are located in the shell at some distance from the top of the bullet. This arrangement of the core in the shell is due to the fact that the head of the shell is made optimal from the position of obtaining the optimal aerodynamic shape, and the head of the core is based on the position of obtaining the maximum breakdown ability of the core. Since these forms do not coincide, it is necessary to shift the core from the top of the shell.

In order to reduce the loss of kinetic energy that goes into the destruction of the shell, it is proposed to make the shell of ceramic-metal antifriction powder material, while the head cone-shaped part of the shell should have a variable thickness, decreasing from the base of the cone, where the thickness of the cone-shaped head is equal to the thickness of the cylindrical part of the shell, up to 0.55 thickness at the top of the cylindrical part of the shell, the head of the core should have a pointed top, and the core is made of hard alloy.

The execution of the shell of ceramic-metal antifriction powder material will also lead to increased damage to the protected target at a longer distance. This is due to the fact that the cermet antifriction powder material has a lower density due to the presence of light additives such as carbon and porosity, which means that by reducing the weight of the shell the core weight will increase while maintaining the total weight of the bullet. In addition, in their physicomechanical properties, powder materials are inferior to cast alloys, and, therefore, less energy will be spent on their destruction. At the initial moment of the core entering the barrier and the core leaving the shell, the shell will serve as a solid lubricant.

The drawing shows a General view of the bullet.

The bullet contains a ceramic-metal anti-friction shell 1. The shell is made by powder metallurgy of iron powder (base) and graphite (up to 3.0%), the shell is coated with copper on top. A hard-alloy core 2 is placed in the shell, which is located in a lead jacket 3. The core is made by powder metallurgy from VK8 alloy. The cone 4 of the shell 1 has a variable thickness, decreasing from T ₀ equal to the thickness of the shell at the base of the cone to 0.55 T ₀ at the top of the cone of the shell. The core 2 has a spiky shape.

Comparative tests were carried out with bullets with a carbide core cartridge 7N24. The shell is made of steel and coated with copper, the bullet is made of VK8 alloy, has a pointed warhead. As punched material used bulletproof vest 6B12 and plates made of steel grade 3 GOST 14637-89 of various thicknesses at a distance of 100 m

The percentage of penetration of the obstacle was determined.

The table shows the results of experiments confirming an increase in the breakdown ability of the proposed bullet.

Shape and properties of core material Penetration of a plate made of steel grade 3 GOST 14637-89 thick at a distance of 100 m Penetration of body armor at a distance of 350 m 16 mm 18 mm 20 mm 24 mm Cartridge 7N24 one hundred% one hundred% twenty% 0% one hundred% Proposed bullet one hundred% one hundred% 80% twenty% one hundred%

As can be seen from the test results, the best indicators are the percentage of destruction of the material being pierced by a bullet whose shell is made of cermet antifriction powder material and the head cone-shaped part of the shell has a variable thickness, decreasing from the base of the cone, where the thickness of the cone-shaped head is equal to the thickness of the cylindrical part of the shell, to 0.55 thickness on top of the cylindrical part of the shell.

An increase in the efficiency of penetration of a thicker plate, which is equivalent to an increase in the damage to the protected target at a farther distance, occurs due to a decrease in the loss of kinetic energy spent by the core when it leaves the shell and the destruction of the shell at the moment of a bullet hitting the plate.

Claims (1)

Bullet for a cartridge for small arms, containing a shell with a lead shirt and a core placed in it, characterized in that the shell is made of cermet antifriction powder material, while the head cone-shaped part of the shell has a variable thickness decreasing from the base of the cone, where the thickness of the cone-shaped head is equal to the thickness the cylindrical part of the shell, up to 0.55 thickness at the top of the cylindrical part of the shell, the core head has a sharp peak and is made of hard alloy.