RU2478908C2 - Armor-piercing bullet for small arm - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed bullet comprises shell with tapered nose to house lead jacket and hard-alloy core with sharpened nose. Shell nose is shaped to truncated cone. Bullet comprises appoint secured to nose shell truncated part without deteriorating bullet geometry. At least, 80% of hard-alloy core is embedded into point material. Point material fills the entire space between inner surface of shell nose and outer nose part of hard-alloy core. Point material is a plastic metal or alloy that makes a solid grease. Hard-allot core length makes (2.36-3.58)d, cylindrical part diameter makes (0.71-0.86)d. nose sharpened part length makes (0.58-3.70)d where d is bullet diameter. Point weight makes (0.05-0.5) of shell weight.

EFFECT: higher piercing capacity.

1 dwg

Description

The invention relates to small arms ammunition, namely to armor-piercing bullets having a hard alloy core with high penetration and designed to destroy fire points in lightly armored military equipment.

A well-known bullet that provides penetration of fragmentation-proof bulletproof vest 6B2, felt and boards 25 mm behind it at a distance of up to 50 m (RF patent No. 20178780).

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 braking forces with the oncoming air flow during the bullet’s flight, which means to the deterioration of the accuracy of the battle and to 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 known bullet for small arms cartridges, comprising a shell with a lead shirt placed in it and a core having a blunted head part, the head part of the core being 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.

A solution is known in which the armor-piercing bullet contains a shell, a carbide core and a lead shirt in the form of a glass, the bullet length being equal to (4.2-4.6) d, the distance from the top of the bullet head to the top of the carbide core is (0.6- 1,0) d, and the thickness of the bottom of the lead shirt is equal to (0.3-0.5) d, where d is the caliber of the bullet, while the shell is made open from the end of the tail of the bullet and has the shape of a truncated cone (Patent RU No. 2135940) .

A disadvantage of the known solution is also the lack of penetration of the core of metal armor over 5.0 mm.

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 a certain 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 therein, with the top of the head of the core having a height not exceeding 0.7 caliber bullets, base diameter not more than 0.68 caliber bullets (RF Patent No. 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 core energy 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 the thickness of the shell wall, 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 made equal to the inner diameter of the cylindrical part of the shell (RF Patent 2133440).

The disadvantage of this bullet is its low efficiency in the defeat of armored vehicles. This is due to the implementation of the core of steel, thinned at the top of the shell. Part of the kinetic energy is expended on the deformation of the shell.

Closest to the technical solution and taken as a prototype is a bullet for a small arms cartridge containing a shell with a lead shirt and a core placed in it, the shell being made of cermet antifriction powder material, and the head cone-shaped part of the shell has a variable thickness that decreases from the base of the cone where the thickness of the conical 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 core head has t pointed tip and made of hard alloy, and the area between the inner surface of the head of the shell and the surface of the head of the core is filled with solid lubricant (RF Patent No. 2413171).

The disadvantage of this bullet is the same as that of the above counterparts and, as a consequence, a decrease in efficiency in the defeat of armored vehicles and body armor.

Thus, it can be seen from the above analogues and prototype that the influence of the shell as a factor that reduces the kinetic energy of the core, which goes to break through the barrier, is quite large.

The objective of the invention is to increase the penetration ability of an armor-piercing bullet for small arms.

In the process of solving this problem, a technical result is achieved, consisting in reducing the kinetic energy of the core, which goes to the destruction of the shell, increasing the breakdown ability of the armor-piercing bullet.

The specified technical result is achieved by the claimed armor-piercing bullet for small arms, containing a shell with a conical head part, a lead jacket placed therein and a carbide core with a pointed head part and filled with solid lubricant between the inner surface of the shell head and the outer head part of the core, while the conical head part of the shell is made truncated, and the armor-piercing bullet additionally contains a tip that is fixed without violating the geometry of ul, on the truncated part of the head shell, at least 80% of the length of the head pointed part of the carbide core is embedded in the tip material so that the tip material fills the entire volume between the inner remaining surface of the head part of the shell and the outer head part of the carbide core, with the tip material is a ductile metal or alloy that serves as solid lubricant, and the length of the carbide core is (2.36-3.58) d, the diameter of the cylindrical part is (0.71-0.86) d, the length of the tip of the top of the warhead is (0.58-3.70) d, where d is the diameter of the caliber of the bullet, and the mass of the tip is 0.05-0.5 shell mass.

The kinetic energy of a bullet is determined by the speed of departure of the bullet from the barrel and its mass, as a rule, the speed and mass of the bullet has its own meaning for each type of weapon. The kinetic energy of the core is essential for the damaging effect. However, not all kinetic energy of a bullet goes to the destruction of armor. Since the bullet consists of several elements, the total energy consists of its individual elements: the energy of the core, the energy of the shell and the lead shirt.

When a bullet hits a solid barrier, the shell is destroyed, and the piercing effect is provided by the core. It is known that up to 25% of the kinetic energy of a bullet depending on the material of the shell and the location of the core in the shell (there is a gap between the tip of the head of the core and the shell, if there is space between the tip of the core and the shell, and the more it is, the more energy is spent, RU No. 2135940) is spent on the destruction of the shell. In order to reduce the loss of kinetic energy that goes into the destruction of the shell by a pointed carbide core, the head cone-shaped part of the shell is truncated and additionally contains a tip made of ductile metal or alloy, while at least 80% of the head pointed part of the carbide core is embedded in the tip material, so that the tip material the entire volume is filled between the inner remaining surface of the head of the shell. The tip, mounted on the truncated part of the shell and not violating the geometry of the bullet, acts as a lubricant at the initial moment of the core entering the barrier and the core leaving the shell. The mass of the tip made of ductile metal or alloy is 0.05-0.5 mass of the shell and does not significantly affect the ballistics of the bullet.

Thus, reducing the loss of the kinetic energy of the bullet, which is spent on crushing the head of the bullet shell (up to 7-10% of the kinetic energy of the bullet), we save it for the core, increasing its breakdown and stopping effect.

The use of lead, copper, and other ductile materials and alloys is proposed as a tip material.

The performance of a pointed carbide core sharply increases the efficiency of the core upon breaking. Obviously, the sharper the head part of the core, the less energy is needed to break through the shell. The implementation of the head of the pointed part of the core cone-shaped, the length of which is equal to (0.58-3.70) d, allows in this range to obtain the maximum ability of a bullet to penetrate armor. The diameter of the cylindrical part of the carbide core is (0.71-0.86) d, this range of parameters of the cylindrical part of the core allows to reduce compression stresses when the core passes through the obstacles and to reduce the stress gradient when the core leaves the armor and thereby maximize the core after breakdown. The length of the core is equal (2.36-3.58) d, a decrease in the length of the core less than 2.36 caliber reduces its mass and reduces the breakdown effect due to a decrease in specific pressure on the barrier, an increase in the length of the core more than 3.58 caliber reduces the breakdown effect from -by reducing its stability. The manufacture of a carbide core within the specified limits allows you to save the ballistic properties of the bullet.

The drawing shows the design of the inventive armor-piercing bullet for small arms.

Armor-piercing bullet for small arms consists of a shell 1. The shell is made truncated, made of bimetal. 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 hard alloy. A tip 4 is located in the shell from the side of the open head, without disturbing the geometry of the bullet. The head pointed part 2.1 of the carbide core 2 is embedded in the material of the tip 4, and the part of the tip 4.1 inside the shell 1 is deformed by the pointed head part 2.1 of the carbide core 2 in this way that the entire remaining volume is filled between the inner surface of the head of the shell and the outer head of the carbide core, while the tip material serves as solid lubricant.

Comparative tests were carried out on cartridges equipped with carbide core bullets with the parameters specified in the description and a lead tip and a 7H24 cartridge having a carbide core. As the punched material, an armor plate of 5 mm grade 2P GOST V 21967-90 was used at a distance of 200 m, 350 m, 500 m and 650 m. The percentage of penetration of the barrier material was determined.

The table shows the results of comparative tests confirming an increase in the penetration ability of the proposed bullet.

Bullet Plate breaking 200 m 350 m 500 m 650 m Bullet cartridge 7N24 one hundred% 80% 0% 0% Bullet Offered one hundred% one hundred% one hundred% 70%

As can be seen from the test results, the best indicators for the percentage of penetration of a bullet according to the proposed technical solution.

Claims (1)

An armor-piercing bullet for small arms, comprising a shell with a conical head part, a lead jacket placed therein and a carbide core with a pointed head part and solid lubricant filled between the inner surface of the shell head and the outer head part of the core, characterized in that the conical head part of the shell is made truncated, and the armor-piercing bullet additionally contains a tip that is fixed, without violating the geometry of the bullet, on the truncated part of the head shell, etc. of this, at least 80% of the length of the head pointed part of the carbide core is embedded in the tip material in such a way that the tip material fills the entire volume between the inner remaining surface of the shell head and the outer head part of the carbide core, the tip material being a ductile metal or alloy serving as solid lubricant and the length of the carbide core is (2.36-3.58) d, the diameter of the cylindrical part is (0.71-0.86) d, the length of the pointed top of the head is (0.58-3.70) d, where d is the diameter of the caliber of the bullet, and the mass of the tip is equal to (0.05-0.5) the mass of the shell.