RU2710241C1 - Cartridge with reduced bullet speed - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to ammunition, namely to pistol cartridges. Cartridge with reduced bullet speed, comprising a bullet with a shell in the form of a cup, with a steel core protruding its head part by the open end of the shell and jacket, cartridge with igniter capsule and powder charge, characterized by that on protruding head part of core there are two symmetrical faces intersecting at front end at angle of 50–75° to form a sharp cutting edge, the length of which is (0.2–0.7)d, wherein its ogival surface between the edges of the faces in its front part changes into a cylindrical surface, the length of which is (0.2–0.6)d, the length of core is (1.3–1.9)d, where d is the bullet , bullet weight is equal to 9.0–11.3 g, and bullet jacket is made from lead alloy, charging density is 0.50–0.75 g/cm.EFFECT: technical result consists in improvement of possibility of penetration with simultaneous increase of shot noiselessness.1 cl, 2 dwg

Description

The invention relates to pistol cartridges mainly of 9 mm caliber, designed for covert firing of multi-shot pistols equipped with a device for silent shooting.

Special units of law enforcement agencies are currently confronted by increasingly technically equipped and equipped terrorist and other criminal groups. Participants in criminal groups are equipped with, among other things, modern, effective personal protective equipment.

The development of personal protective equipment of class 2 according to GOST R50744-95, designed to protect against fragments and pistol bullets, goes along the path of using body armor containing fabric armor panels based on high-strength synthetic threads. Fabric bulletproof vests are lightweight, do not constrain movements and are not detected by metal detectors.

The success of special combat operations is largely determined by the possibility of their covert conduct. One of the main conditions for securing the conduct of special combat operations is the use of silent firing means, including special cartridges with a reduced (subsonic) speed of a bullet and pistols equipped with silent firing means (silencers). Ammunition for silent shooting should have a bullet speed not exceeding the speed of propagation of the speed of sound in air (usually a speed of the order of 300-320 m / s), so as not to create a ballistic wave perceived as the sound of a shot. To ensure silent shooting from self-loading pistols, the Russian Army currently uses a 9 × 18 mm cartridge 57-N-181C and a self-loading pistol PB, in the design of which a device for silent shooting is used. The range of aimed firing from a PB pistol is 25 m, the flight speed of the bullet is 290-315 m / s. However, the bullet of the cartridge 57-Н-181С does not penetrate bulletproof vests of protection class 2, and in particular bulletproof vests with fabric armor panels.

To defeat the enemy, protected by body armor of the 2nd protection class, including fabric-based body armor in accordance with GOST R50744-95, when firing from a pistol, a 9-mm cartridge according to patent No. 2045739 is currently used, which is selected as a prototype, however, a bullet This cartridge has a speed of over 400 m / s, which is significantly higher than the speed of sound in air.

Thus, the urgent task is to create a pistol cartridge for a covert defeat by a silent shot of targets protected by type 2 bulletproof vests containing fabric armor panels.

For pistol cartridges it was experimentally established that when a bullet speed is less than 300-320 m / s, while maintaining a shot pulse that is optimal from the point of view of the reliability of the pistol automatics and ensuring shooting comfort, as well as the overall characteristics acceptable for a pistol cartridge, penetration of body armor 2 protection class on the basis of fabric armor panels with bullets of ordinary design (with the head part of a lively or conical shape) is impossible.

To solve this problem, a pistol cartridge of predominantly 9 mm caliber is proposed, containing a sleeve, a bullet with a shell in the form of a cup, a steel core protruding from the open end of the shell, the head of which has a live surface that in its front part passes into a cylindrical surface with a length equal to (0, 2-0.6) caliber and lead alloy jacket, powder charge and primer. Two symmetrical faces are made on the part of the bullet core protruding from the shell, intersecting at the front end at an angle of 50-75 degrees to form a sharp cutting edge, the length of which is (0.2-0.7) gauge, the charge density is 0.50-0 , 75 g / cm ³ , the length of the bullet core is (1.3-1.9) caliber, the mass of the bullet is 9.0-11.3 g.

These essential features - the ratio of the size and parameters of the cartridge, are interrelated and a change in any of them leads to the loss of the combat properties of the cartridge, or to an increase in its dimensions.

The invention is illustrated by drawings, where are presented: in FIG. 1 is a side elevational view of the cartridge, in FIG. 2 - General view of the cartridge from above.

The proposed cartridge contains a bullet 1, a shell in the form of a cup 2, a shirt 3, a core 4 with a lively 5 and a cylindrical 6 surfaces and a cutting edge 7 at the front end, formed at the intersection of the faces 8 applied to the head of the core, protruding beyond the open end of the shell. On the lateral parts of the cutting edge, blunting and rounding can be performed (not shown in the drawing). The bullet is inserted into the sleeve 9 with the igniter capsule 10. A powder charge 11 is placed in the sleeve.

The work of the cartridge is as follows. When meeting with an obstacle, a bullet of 1 cartridge at the first stage is introduced into the fabric of the armored panel with a portion of the head formed by intersecting faces 8 and sections of the cylindrical surface 6 between these faces. In this case, the introduction occurs mainly due to the cutting of the threads of the tissue section with a sharp cutting edge 7 and only partially due to the spreading of the cut section by the surface of the inclined faces 8. In this case, the tissue does not extend along the cylindrical surface. Therefore, at the first stage, there is a high concentration of kinetic energy of the bullet on the sharp cutting edge 7, which allows you to cut the fabric into the entire thickness of the armor panel.

In the second stage of penetration of the bullet, the portion of its head formed by the inclined faces 8 and the animated surface 5 of the core 4 is embedded in the tissue by spreading it both by the inclined faces 8 and the animated surface 5. Since the tissue is extended by the part of the core that enters the penetration in the second stage If the tissue is weakened by the incision made in the first stage, then for the further passage of the bullet through the fabric armor panel, significantly less energy is required.

To preserve the kinetic energy of the core and the bullet as a whole at a level sufficient to break through the bulletproof vest at a lower bullet speed than the prototype, the proposed cartridge, along with the use of a special form of the core of the core, increased bullet weight in comparison with the prototype. The mass of the bullet is increased due to the use of a shirt made of lead alloy having a higher density than the polyethylene used in the prototype and some increase in the length of the bullet. Since the energy required for breaking through a bulletproof vest depends both on the energy of the whole bullet and on the energy of the core itself, a decrease in the energy required to break through a bulletproof vest made it possible to use a 1.3–1.9 caliber core (less than that of the prototype). Reducing the length of the core, in turn, made it possible to further increase the mass of the bullet without increasing its volume by filling the volume released by shortening the core with shirt material having a higher density, which also facilitated the placement of the increased mass in the cartridge sleeve without violating its dimensions and while maintaining acceptable dimensions indicators of the volume of the charging chamber and loading density.

Thus, to solve the problem in the proposed cartridge, in comparison with the prototype, a new configuration of the bullet’s head was applied, the mass of the bullet was increased, the length of the steel core was shortened and a shirt made of lead alloy was used instead of polyethylene, while reducing the required bulletproof vest energy ratio of the design parameters of the cartridge is obtained, ensuring reliable operation of the pistol automation, shooting comfort, acceptable loading density, while maintaining without icheniya dimensional characteristics of the cartridge relative to the prototype.

When the edge length L _{1 is} less than 0.2 caliber, the section of body armor tissue on which penetration of the core occurs due to cutting of the fabric is significantly reduced and the section on which the penetration of the core and bullet is due to the expansion of the tissue, which expends more energy, decreases the breakdown bullet ability.

When the edge length L _{1 is} more than 0.7 caliber, the conditions for sending a bullet to the chamber are worsened.

The length of the cylindrical portion of the head of the core L ₂ less than 0.2 gauge is insufficient for the entire thickness of the protective composition to pass until the remaining parts of the head of the core and the entire bullet penetrate into it, which leads to an increase in energy loss due to the separation of the barrier, not weakened by the cut and to reduce bullet penetration.

When the length of the cylindrical section L _{2 is} more than 0.6 caliber with the same length of the protruding part of the core, the angle of meeting of the living surface with the barrier increases, which increases the resistance to sliding of the fabric and reduces the breakdown ability.

An increase in the angle between intersecting faces 10 of more than 75 ° reduces the concentration of the kinetic energy of the bullet per unit area of the barrier and significantly reduces the penetration of body armor.

With a decrease in the angle between intersecting faces of less than 50 °, the faces extend beyond the part of the core protruding beyond the shell, which leads to the formation at the intersection of the faces and the end of the shell of the ledge or cavity increasing the resistance to penetration of the barrier.

The length of the core L ₃ less than 1.3 caliber reduces its kinetic energy and unacceptably reduces the penetration of body armor containing metallic protective compositions.

The length of the core L ₃ more than 1.9 caliber leads to lengthening of the bullet, a decrease in the volume of the charging chamber and an increase in the loading density more optimal for cartridges with a subsonic speed of 0.50-0.75 g / cm ³ .

When the loading density of more than 0.75 g / cm ^{3 the} maximum pressure of the powder gases increases more than 3000 kg / cm ² , which leads to tight extraction of the sleeve.

When the loading density is less than 0.5 g / cm ³ decreases the maximum pressure of the powder gases and the speed of the bullet, which leads to a loss of penetration.

Reducing the mass of the bullet less than 9.0 g reduces the kinetic energy of the bullet and eliminates the breakdown effect on body armor.

An increase in the mass of the bullet of more than 11.3 g significantly increases the momentum of the shot, which leads to an increase in the speed of the moving parts of the gun, causing its destruction, as well as to a large recoil of the shot.

Thus, the totality of all these ratios of the values of the parameters of the cartridge provides a solution to the problem of hitting a silent shot of targets protected by body armor of the 2nd protection class containing fabric armored panels.

Claims (1)

A cartridge with a reduced speed of a bullet, containing a bullet with a shell in the form of a glass, with a steel core protruding with its head behind the open end of the shell and a shirt, a sleeve with an igniter capsule and a powder charge, characterized in that two symmetrical shells are made on the protruding head of the core faces intersecting at the front end at an angle of 50-75 ° with the formation of a sharp cutting edge, the length of which is (0.2-0.7) d, while its animated surface between the edges of the faces in its front end passes into the cylinder its surface, the length of which is (0.2-0.6) d, the length of the core is (1.3-1.9) d, where d is the caliber of the bullet, the mass of the bullet is 9.0-11.3 g, and the bullet shirt is made of lead alloy, the loading density is 0.50-0.75 g / cm ³ .

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