RU2485436C1 - Armour-piercing tracer bullet - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: armour-piercing tracer bullet contains a bimetallic shell with a head cone-shaped part, a hard-alloy core, and a cup with tracer composition. The hard-alloy core has a sharpened head and cylindrical tail parts. The core and the cup are placed in a bimetallic shell. The cylindrical part of the core is placed in a lead jacket. The weight of the core is (0.37-0.45) the bullet weight, and the weight of the lead jacket is (0.05-0.5) the bullet weight. The pointed head part of the core is made in the form of a cone and has blunting of the core top (0.005-0.13)d. The hard-alloy core length is equal to (2.02-2.54)d, the diameter of the cylindrical part of the core is equal to (0.71-0.86)d, the length of pointed head part of the core is equal to (0.58-1.25)d, the length of the bullet is (4.5-5.1)d, where d is the bullet caliber.

EFFECT: increased grouping of shots and penetrating action.

2 dwg

Description

The invention relates to the field of ammunition of small arms, in particular to bullets used to adjust fire and damage lightly armored and auxiliary equipment.

Known armor-piercing incendiary-tracer bullets (RU No. 2168148, RU No. 21219480) containing a shell with a jacket placed therein, armor-piercing core, incendiary composition and a glass with tracer composition.

These bullets do not have high accuracy indicators and do not meet modern requirements for punching action. An increase in the punching effect in these solutions is achieved by increasing the mass of the core and performing its head with a taper in the form of a cone.

Known armor-piercing tracer bullet (RU No. 2225585), containing a shell, tracer block and core. The use of a two-layer scheme allows to increase the weight of the core, which increases the penetration ability of the bullet, but the need to maintain an optimal center of mass location (to obtain an acceptable accuracy) limits the dimensions of the core, not allowing to achieve the maximum possible result, while the absence of a lead shirt increases the likelihood of damage to the tracer pieces.

The closest of the analogues, in terms of essential features, is the technical solution according to patent RU No. 2211194, containing a bimetallic shell, a core having an animated head and cylindrical tail, a cup with a tracer composition and a cavity located in front of the core in the head of the shell, the tail the core is made with a length of (0.65-0.80) d, the total length of the bullet is (4.7-5.1) d, and the distance from its top to the top of the core is (0.12-0.17) L, where d - bullet caliber, a L - its length, while the core can be l is made of hard alloy, and the cavity is filled with incendiary composition.

The absence of a lead shirt in this design and the shape of the core of the core, which is optimal for breaking through the barrier, makes it possible to use cores that are maximum in weight and diameter, thereby obtaining relatively high breakdown rates, while ensuring the required accuracy.

The disadvantage of this bullet is the presence of a relatively long tail in the core, which makes it impossible to obtain maximum values of the breakdown effect. As a result of the action of elastic deformations in the armor material, the diameter of the channel formed by the head part of the core decreases, causing significant friction forces to occur at the stage of passing the obstacle by the tail part of the core, which leads to its sharp braking and, accordingly, to non-penetration of the barrier.

An analysis of the known technical solutions shows that within the framework of the optimal ballistic solution providing a sufficiently high accuracy of armor-piercing tracer and armor-piercing incendiary-tracer bullets, their breakdown effect is improved as a result of an increase in the mass of the core (for example, by using a hard alloy) or optimization of its shape head part.

The objective of the invention is the creation of armor-piercing tracer bullets, providing high accuracy and penetrative effect.

In the process of solving this problem, a technical result is achieved, consisting in reducing the destruction of the integrity of the core in the process of breaking through the armor, in reducing the effect of springing armor plate.

The problem is solved by an armor-piercing tracer bullet containing a bimetallic shell with a head cone-shaped part, with a carbide core with a pointed head part placed in it, having a cylindrical tail part, a cup with a tracer composition, while the length of the carbide core is (2.02-2, 54) d, the diameter of the cylindrical part of the core is (0.71-0.86) d, the cylindrical part of the core is placed in a lead shirt, the length of the pointed head of the core is (0.58-1.25) d, the pointed head I part of the core is made in the form of a cone, has a blunting of the top of the core (0.005-0.13) d, the length of the bullet is (4.5-5.1) d, where d is the caliber of the bullet, the mass of the core is (0.37-0.45 ) the mass of the bullet, and the mass of the lead shirt is (0.05-0.5) the mass of the bullet.

In the existing designs of bullets, this set of essential features has not been identified, which allows us to consider this technical solution to meet the criterion of "novelty."

The design features of combined-action bullets, namely the presence of a tracer having fixed dimensions, significantly reduce the possibility of obtaining high penetration and accuracy indicators, since the tracer reduces the dimensions and weight of the core, and also shifts the center of mass of the bullet to its top.

An increase in the breakdown effect of armor is possible by maximizing the relative weight and reducing the diameter of the core, as well as improving the shape of its head to characteristics that overcome the “puncture” type barrier, with the formation of a fusion zone at the contact point between the core and the armor and formation, due to the effect Rebinder, spallation of the armor from the exit side of the core. Such a destruction mechanism is minimally energy-intensive, since not all kinetic energy of the core is spent on breaking through the armor, the mechanism is realized when the core has a pointed conical head.

In the present invention, the tail portion of the core is shortened, which allows the core, taking into account the formation of the molten zone at the contact point of the core and the armor plate, to freely overcome the obstacle. The design of the core made of hard alloy (for example, VK8) compensates for the weight loss due to the reduction in length, and the placement of the cylindrical part of the core in a lead shirt allows you to shift the center of mass closer to the tail of the bullet, ensuring optimal accuracy. Maintaining core integrity enhances the damaging effect of a bullet after overcoming an obstacle. Maintaining the integrity of the core occurs by reducing the effect of "springing" of the armor plate, due to the fact that high temperatures are formed in the armor in the penetration zone, which allows to increase the ductility of the plate material.

The claimed combination of distinctive features in the sources of patent and scientific and technical information is not found, which allows us to consider this technical solution satisfying the criterion of "inventive step".

The drawings show a General view of the bullet in the extreme values of the blunting of the top of the core of the pointed head part of the core, made in the form of a cone, Fig.1 - 0.005d and Fig.2 - 0.13 d, where d is the caliber of the bullet.

The bullet contains a bimetallic shell 1, a core containing a conical head 2 and a cylindrical tail 3 parts, a lead shirt 4 with a cylindrical tail part 3 placed in it, a cup 5 with a tracer compound 6 pressed into it.

When firing a bullet under the influence of powder gases, it crashes the leading part into the channels of the barrel of the weapon and acquires the required initial speed, while the ignition of the tracer composition 6 located in the cup 5, which provides tracing on the trajectory. When a bullet meets an obstacle, the core (previously piercing the shell) breaks through the obstacle due to its kinetic energy. The core material (hard alloy) in combination with the shape of its head part 2 and the declared length of the tail part 3 provide the opportunity to overcome obstacles with the least cost of kinetic energy.

These essential features are interrelated, and a change in any of them leads to a decrease in the characteristics of the bullet.

When the length of the bullet is less than 4.5d, its center of mass is shifted to the top, which affects the accuracy.

With a length above 5.1d, the length of the leading part of the bullet increases, which leads to an increase in deformation forces when the bullet passes through the cuts of the barrel channel and impairs accuracy.

When the length of the head of the core is less than 0.58d, the mass of the bullet decreases, which leads to a decrease in breakdown ability, more than 1.25d - it does not allow the assembly of the bullet within the specified limits.

When the diameter of the cylindrical part of the core is less than 0.7d, the mass of the bullet decreases, which leads to a decrease in breakdown ability, more than 0.86d - does not allow the assembly of the bullet within the specified limits.

When the core mass is less than 0.37 of the bullet’s mass, the armor piercing of the cartridge decreases, more than 0.45 - the accuracy decreases.

Comparative tests were carried out by firing cartridges with the proposed bullet according to techniques adopted in the industry. Tests have shown that the bullets of the proposed design have an accuracy of firing from a ballistic barrel at a distance of 300 meters R50 = 8 cm, and when firing at an armored sheet with a thickness of 10 mm, the proposed bullet provides 100% penetration of an obstacle at a distance of 300 meters, which is much better than the accuracy and penetration prototype action (cartridge 7БТ1).

The design of the bullet allows its production to use technological processes traditional for mass production, which together with the test results confirms the compliance of the invention with the criterion of "industrial applicability".

Claims (1)

An armor-piercing tracer bullet containing a bimetallic shell with a conical head part, with a carbide core with a pointed head having a cylindrical tail part, a cup with tracer composition, characterized in that the carbide core length is (2.02-2.54 ) d, the diameter of the cylindrical part of the core is (0.71-0.86) d, the cylindrical part of the core is placed in a lead shirt, the length of the pointed head of the core is (0.58-1.25) d, the pointed head of the core made in the form of a cone, has a blunting of the top of the core (0.005-0.13) d, the length of the bullet is (4.5-5.1) d, where d is the caliber of the bullet, the mass of the core is (0.37-0.45) the mass of the bullet, and the mass of the lead shirt is (0.05-0.5) the mass of the bullet.

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