RU170528U1 - BULLET FOR SNIPER CARTRIDGE - Google Patents

Abstract

The utility model relates to ammunition, in particular to automatic and rifle bullets having a core made of hard alloy. The objective of the proposed technical solution is to increase the defeat of manpower located in lightly armored military equipment and openly located in body armor. The technical result is to increase the accuracy of the bullet’s battle while maintaining high armor penetration and penetrating damage. The technical result is achieved by the claimed bullet for a sniper cartridge containing a shell, a lead shirt and a carbide core having a head and a tail, the length of the core is (2.21 ÷ 3.48) d, the head of the core is cone-shaped, the length of which is (0 , 58 ÷ 3.70) d, the head of the core has a contact pad, the diameter of which is (0.018 ÷ 0.250d, the surface of the tail of the core has a roughness not higher than Ra 1.6, the mass of the core is (34 ÷ 62)% of the mass of the bullet, and the hard alloy core contains carbide tungsten by mass (85-96)%, while the tail of the core has the shape of a truncated cone with a diameter of a smaller base in the tail and the angle of inclination of the generatrix to the base plane (0.25-1.5) °, the rear end of the core is offset from the back the end face of the shell is (0.1 ÷ 0.4) d, where d is the caliber of the bullet, the alignment of the cone of the head and the cone of the tail is not more than (0.02-0.03) mm, the spread in mass of the bullet and core in the tolerance is (0.03-0.05) g. In addition, the difference in the shell and lead shirts are not more than 0.01 mm, and the difference in the length of the pig’s flanges are 0.02 mm, the distance from the inner front wall of the shell to the front end of the core is not more than 0.6 d, the weight of the lead shirt is (5 ÷ 20)% of the mass of the bullet, the tail of the core has a chamfer or a radius of curvature of 0.15 d, less the diameter of the truncated cone is (0.71-0.86) d, the larger diameter of the truncated cone of the shank is equal to the diameter of the head of the core and is (0.72-0.86) d, the generators of the truncated cone of the head are made at an angle of 20.0 65.0 °.

Description

The utility model relates to ammunition, in particular to automatic and rifle bullets, having a core made of hard alloy with high penetration and blocking action and high accuracy of combat.

Known bullet containing a shell, lead shirt and core. The core is made in the form of a combination of two truncated cones, which are the head and tail. The generators of the truncated cone of the head part are made at an angle of (20.0-65.0) degrees with a diameter of a smaller base of 0.02-0.3 caliber. The generators of the truncated cone of the tail are made with an angle of 15 minutes to 1 degree. The core is mounted in the shell with the fixation of its position - in front in the zone of the head of the shell, and in the back by focusing on the truncated cone of the tail of the core through the lead jacket on the inner surface of the shell. (Patent RU No. 2468332, application No. 2011105037 dated 02/11/2011, IPC F42B 12/04).

A disadvantage of the known technical solution is the lack of accuracy of the bullet battle. This is due to the displacement of the center of mass of the core from the longitudinal axis of symmetry, which is typical for mass production of bullets of usual accuracy. In the manufacturing process, bullets of small arms cartridges have various geometric dimensions, due to various technological processes, in addition, the cores have a large mass dispersion. All this together leads to the production of bullets with a spread in the ballistic characteristics of the bullet’s flight and, as a result, the low accuracy of the bullet’s battle.

Known is an armor-piercing bullet containing a shell, a carbide core having a head and a tail, and a lead jacket, the head of the carbide core is pointed, the core length is (2.21-3.48) d, while the core alloy contains tungsten carbide in weight (85-96)%, has a HRA hardness of at least 85.0 units, a flexural strength of at least 2000 MPa, the head of the core is cone-shaped, the length of which is (0.58-3.70) d, the tail has the shape cylinder, or truncated cone, or connected between the cylinder and the truncated cone, and the smaller diameter of the truncated cone is (0.71-0.86) d, the larger diameter of the truncated cone of the shank is equal to the diameter of the cylinder and the diameter of the head of the core and is (0.72-0.86) d and the length of the shank cylinder is (0.01-3.58) d, where d is the diameter of the bullet’s caliber, the surface of the core completely or partially has a roughness not higher than Ra 1.6, and the core weight is (34-62)% of the bullet . In addition, the hard alloy has a compressive strength of at least 4000 MPa, a stress intensity factor K1C of at least 8 MPa m ^1/2 , the conical shape of the head of the core is formed by a straight line and / or circular arc with a radius equal to (0.31-10 , 28) d, which is the conjugation arc between the line forming the cone and the line forming the cylindrical part of the shank, while the length of the part of the cone formed by the circular arc is (0.01-3.70) d, the conical shape of the head of the core has the radius of curvature of the pointed part is not used more than 0.3 mm, and the tail of the core and / or head has a coating made by one of the physical or chemical methods of metal deposition. (RU No. 2438096, application No. 20102828438 dated July 9, 2010 IPC F42B 12/06).

A disadvantage of the known solution is the insufficient over-penetration ability of the bullet core when it penetrates metal armor with increasing caliber. A pointed core with a rounded point of the cone up to 0.3 mm destroys the metal armor by the puncture mechanism with the formation of a hole due to molten metal. With such a mechanism for the destruction of metal armor, the core remains intact, but its stall speed is significantly reduced. The second disadvantage of this technical solution is the lack of accuracy of the bullet battle. This is due to the displacement of the center of mass of the core from the longitudinal axis of symmetry. In the manufacturing process, bullets of small arms cartridges have various geometric dimensions, due to various technological processes, in addition, the cores have a large mass dispersion. All these indicated causes lead to bullets with a spread in the ballistic characteristics of the bullet’s flight and, as a result, low accuracy of the bullet’s battle.

The closest in technical essence and the achieved result to the proposed pool is an armor-piercing bullet containing a shell, a lead shirt and a carbide core having a head and a tail, the core length is (2.21-3.48) d, while the core alloy contains tungsten carbide by weight (85-96)%, has a hardness of HRA of at least 85.0 units, a flexural strength of at least 2000 MPa, the head of the core is cone-shaped, whose length is (0.58-3.70) d, tail the part is in the form of a cylinder or a truncated cone or interconnected cylinder and a truncated cone, and the smaller diameter of the truncated cone is (0.71-0.86) d, the larger diameter of the truncated cone of the shank is equal to the diameter of the cylinder and the diameter of the head of the core and is equal to (0.72-0.86 ) d, and the length of the shank cylinder is (0.01-3.58) d, where d is the diameter of the bullet caliber, the surface of the core completely or partially has a roughness not higher than Ra 1.6, and the mass of the core is (34-62)% the mass of the bullet, while the head of the core has a contact pad, the diameter of which is (0.018-0.25) d, where d is the diameter of libra bullet hard metal has the compressive strength of not less than 4000 MPa, the stress intensity factor K1C not lower than 8 MPa m ^1/2, the tail portion of the core has a chamfer or radius to 0,15d. (RU No. 127446, application: No. 2012147315 dated November 7, 2012, IPC F42B 12/04). This technical solution was made as a prototype.

With high armor penetration, the bullet has insufficient accuracy of battle. This is due to the displacement of the center of mass of the core from the longitudinal axis of symmetry, a large mass tolerance on the core and the bullet in their manufacture, a large misalignment of the head and tail cones. During the manufacturing process, the bullet has a spread in the weight of the lead jacket and shell. All this together leads to the production of bullets with a wide spread of the ballistic characteristics of the bullet’s flight and, as a result, to a reduction in the accuracy of the bullet’s battle.

In the utility model, the task is to increase the defeat of manpower located in lightly armored military equipment and openly located in body armor.

In the process of solving this problem, a technical result is achieved, which consists in increasing the accuracy of the bullet’s battle while maintaining high armor penetration and non-explosive striking ability.

The specified technical result is achieved by the claimed bullet for a sniper cartridge containing a shell, a lead shirt and a carbide core having a head and a tail, the length of the core is (2.21 ÷ 3.48) d, the head of the core is cone-shaped, the length of which is ( 0.58 ÷ 3.70) d, the head of the core has a contact area whose diameter is (0.018 ÷ 0.25) d, the surface of the tail of the core has a roughness not higher than Ra 1.6, the mass of the core is (34 ÷ 62) % of the mass of the bullet, and the hard alloy core contains um tungsten carbide by mass (85-96)%, while the tail of the core has the shape of a truncated cone with a diameter of a smaller base in the tail and an angle of inclination of the generatrix to the base plane (0.25-1.5) °, displacement of the rear end of the core from the rear end of the shell is equal to (0.1 ÷ 0.4) d, where d is the bullet caliber, the alignment of the cone of the head and the cone of the tail is not more than (0.02-0.03) mm, the spread in mass of the bullet and core in the tolerance field is (0.03-0.05) g. In addition, the difference in the shell and lead shirts have no more than 0.01 mm, and the difference in netsovoy shirt 0.02 mm, the distance from the inner front wall of the shell to the front end of the core is not more than 0.6d, the weight of the lead jacket is (5 ÷ 20)% of the mass of the bullet, the compressive strength of the bullet material is not less than 4000 MPa, bending not less than 2000 MPa, stress intensity factor K _1C not lower than 8 MPa m ^1/2 , HRA hardness not lower than 85.0 units, the tail of the core has a chamfer or a radius of curvature of up to 0.15 d, the smaller diameter of the truncated cone is (0.71-0 , 86) d, the larger diameter of the truncated cone of the shank is equal to the diameter of the head of the core and equal to (0.72-0.86) d, the generators of the truncated cone of the head part are made at an angle of 20.0-65.0 °, while the head part of the core is in contact with the inner surface of the head part of the shell of the bullet only by the large base of the truncated cone of the head part.

In the proposed design of a bullet for a sniper cartridge, an increase in the accuracy of the bullet’s battle while maintaining high armor penetration and intermittent striking ability is achieved by optimizing the shape of the tail of the core, optimizing the placement of the core in the pool relative to the rear end of the shell, and improving the accuracy of manufacturing equipment for manufacturing the core, which made it possible to achieve high alignment of the cone of the head, the alignment of the cone of the head and the cone of the tail is not more than (0.02-0.03) mm, while when assembling a bullet, the cores are sorted on a batch by weight with a tolerance field (0.03-0.05) g; in the manufacture of a cartridge, sorting on a batch by mass with a smaller tolerance field is also performed for the bullet.

In FIG. 1 shows the design of the inventive bullet for a sniper cartridge. The ratio of the design parameters of the bullet is determined depending on the caliber. A bullet for a sniper cartridge consists of a carbide core 1 having a head 1.1 and a tail 1.2 parts, a lead shirt 2 and a sheath 3, the head part of the core has a contact pad whose diameter D is D = (0.018-0.25) d. The head part 1.1 consists of a cone formed by a straight line. The tail part 1.2 consists of a truncated cone with a diameter of a smaller base in the tail part and an angle of inclination of the generatrix to the base plane of (0.25-1.5) °. The tail portion has a chamfer or a radius of curvature of 1.2.1 to 0.15d. The length l _{0 of} core 1 is l ₀ = (2.21-3.48) d, the length of the head part l _{1 of} core 1.1 is l ₁ = (1.58-3.70) d, the displacement of the rear end of the core 1.2 from the rear end shell 3.1 is equal to l ₂ = (0.1 ÷ 0.4) d, the larger diameter D _{1 of the} truncated cone of the shank is equal to the larger diameter of the head of the core and is equal to D ₁ = (0.72-0.86) d. The alignment of the cone of the head and the cone of the tail is not more than (0.02-0.03) mm, the core and the bullet are sorted into one of the batches of the tolerance field by weight with an interval of (0.03-0.05) g.

The core was made from tungsten-cobalt powders with a tungsten carbide content of 92% by weight and cobalt 8% by weight. The density after pressing the workpieces was 8.4 + 0.05 g / cm ² . Sintering was carried out in two stages: preliminary - in order to remove plasticizer in a hydrogen atmosphere and final vacuum-compression in a VKPgr 50/90/50 furnace by Degussa.

Preliminarily, the mass tolerance field of the core was divided into intervals with a step (0.03-0.05) g. The manufactured cores were sorted in batches with a tolerance field (0.03-0.05) g. After this sorting, the bullet was assembled. After assembly, the bullets were also sorted into batches with a tolerance field (0.03-0.05). Bullets of one batch were tested.

For high accuracy of the battle, bullets for a sniper cartridge conducted comparative firing at a target at a distance of 200 meters with 7.62 caliber ammunition with a carbide core made according to the prototype and the proposed technical solution. Table 1 provides the results of comparative tests.

The results of comparative tests confirmed the high accuracy of the battle of the proposed bullet for a sniper cartridge.

Claims (8)

1. A bullet for a sniper cartridge containing a shell, a lead shirt and a carbide core having a head and a tail, the length of the core is (2.21 ÷ 3.48) d, the head of the core is cone-shaped, has a contact area, the diameter of which is equal to (0.018 ÷ 0.25) d, the surface of the tail of the core has a roughness not higher than Ra 1.6, the mass of the core is (34 ÷ 62)% of the mass of the bullet, and the hard alloy of the core contains tungsten carbide by weight (85-96)%, characterized in that the tail of the core has the shape of a truncated cone ca with the diameter of the smaller base in the tail and the angle of inclination of the generatrix to the base plane (0.25-1.5) °, the displacement of the rear end of the core from the rear end of the shell is (0.1 ÷ 0.4) d, where d is the caliber bullets, the alignment of the cone of the head and the cone of the tail is not more than (0.02-0.03) mm, the spread in weight of the bullet and core in the tolerance field is (0.03-0.05) g. 2. The bullet according to claim 1, characterized in that the shell difference is not more than 0.01 mm, and of a lead shirt not more than 0.02 mm. 3. The bullet according to claim 1, characterized in that the distance from the inner front wall of the shell to the front end of the core is not more than 0.6d. 4. The bullet according to claim 1, characterized in that the mass of the lead shirt is (5 ÷ 20)% of the mass of the bullet. 5. The bullet according to claim 1, characterized in that the tensile strength of the bullet material is not less than 4000 MPa in compression, not less than 2000 MPa in bending, the stress intensity factor K _{1C is} not lower than 8 MPa m ^1/2 , the HRA hardness is not lower than 85.0 units. 6. The bullet according to claim 1, characterized in that the tail of the core has a chamfer or a radius of curvature of up to 0.15d. 7. The bullet according to claim 1, characterized in that the larger diameter of the truncated cone of the shank is equal to the diameter of the head of the core and is equal to (0.72-0.86) d. 8. The bullet according to claim 1, characterized in that the generators of the truncated cone of the head part are made at an angle of 20.0-65.0 °, while the head part of the core is in contact with the inner surface of the head part of the shell of the bullet only with a large base of the truncated cone of the head part.

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