RU197995U1 - CORE BULLETS FROM LEAD FREE SPHEROIDS - Google Patents

Abstract

The invention relates to lead-free cores for small arms bullets, in particular bullets with a shell and core made of a composite material exhibiting properties similar to those of lead, but not harmful to the environment. The objective of the proposed solution is to create a core for a bullet with ballistic characteristics similar to a lead core pool, but not containing lead and not having a detrimental effect on the environment. In the process of solving this problem, a technical result is achieved - increasing the manufacturability of the core and reducing the cost of manufacturing the core. The technical result is achieved by the core of a bullet made of lead-free spheroids having a head and a tail, the head is made in the form of animate, length (0.8-2.3) d, with a flat area with a diameter of (0.1-0.5) d in the upper parts, and the tail part consists of a cylindrical part with a diameter of (0.72-0.86) d, and a truncated cone with a height of (0.1-1.0) d, the core length is (2.6-4.2) d, where d is the caliber of the bullet mm, the smaller diameter of the cone is (0.8-0.99) the diameter of the cylindrical part, the core is made of composite material consisting of spheroids with a diameter of (0.2-2.0) mm and a density of 9, 0-13.5 g / cm, interconnected by polyurethane, the basis of the material of the spheroids is the diamond grinding slurry of products from tungsten-cobalt alloys with a cobalt content of (3-15)%. In addition, the mass of sludge in the material of the spheroids is at least 90%, the rest is carbon, phosphorus and metal impurities from the group of tin, zinc, aluminum, iron, copper, bismuth and their mixtures, the spheroids are sintered.

Description

The utility model relates to lead-free cores for small arms bullets, in particular to shells with a shell and core made of a composite material exhibiting properties similar to those of lead but not harmful to the environment.

The characteristics of lead, which give enhanced qualities to the cores, are: cold forming ability, density and low price.

To obtain a core that exhibits properties similar to those of a lead core, but does not pose an environmental hazard when using lead, it is necessary to create a composite material with a material density close to that of lead, i.e. 11.3 MPa and having and elastoplastic properties close to its properties. This is due to a number of requirements. Firstly, the core should provide a close correspondence to the density of the lead bullet, which will ensure equal weight of bullets and create the feeling of a standard lead bullet firing. Secondly, a bullet with a given core should provide a trajectory close to the trajectory of a lead bullet of the same caliber and weight, so that practical shooting matches shooting with real lead bullets. The cost of manufacturing a bullet of a composite material containing no lead should not significantly exceed the cost of manufacturing a bullet of lead.

Differences in the density of the material for bullets of the same size are found when using the same charges in the trajectory and recoil force of a firearm. Such differences are undesirable, since the shooter needs a trajectory corresponding to the trajectory of the lead bullet, so that the shooter knows where to aim, and the recoil corresponding to the recoil when shooting with a lead bullet, so that the "feeling" when shooting was the same as when shooting with a lead bullet. If these differences are large enough, the experience gained in practical firing loses its value.

The prior art is known from a hunting bullet, the core of which consists of lead, and a metal shell. (RF patent No. 2056621, application MPK6 F42B 30/02, 03/20/96.) The disadvantage of the bullet is that the core is made of lead. The environmental hazards of lead are well known. Lead bullets entering the ground contaminate groundwater as a result of leaching. In addition, when a bullet is fired with lead in the clear, the bullet emits dust containing lead. These lead microparticles are toxic and pose a danger to the shooter.

A known bullet, the core of which is made of pure tin, a tin content of 99.85%, a yield strength of 11 MPa or less, and a hardness of about 3-5 HB. (RF patent No. 2224210, application No. 200119145 dated 04.12.98, IPC6 F42B 12/74.).

The disadvantage of this bullet is the low density of tin. The density of the chemical element tin from which the core is made is 7.3 g / cm ² , which is 1.5 times less than the density of lead. This reduces the destructive power of the core.

Known hunting projectile, consisting of a spherical core of lead, provided with a coating of chemically resistant and abrasion resistant polymer. (U.S. Patent 5,088,415 IPC F42B 12/74.)

The disadvantage of this technical solution is that the protection of a lead projectile reduces the density of the projectile as a whole, thereby reducing its lethal force.

Known bullet hunting cartridge for rifled weapons, containing a metal shell, a lead shirt and a steel core, placed in the shell, while the length of the head with a tip is 1.9-2.5 caliber. The density of the core material made of steel does not exceed 7.8 g / cm ³ , bullet parameters are determined taking into account this density. (RF patent No. 2009445, application No. 914943439 dated June 7, 1991, IPC F42B 12/34.)

The disadvantages of this technical solution include the fact that the material of the core of the bullet contains material with a density lower than the density of lead, the bullet does not have the ballistic properties inherent in bullets from lead.

A technical solution is known for a lead-free partially collapsing bullet consisting of a shell of a bullet pressed into the back core and pressed into the living area of the front core, the front core being seated on the back core. As the core material, lead-free molding materials such as Sn, Zn are used. (RF patent No. 2700745, application No. 2016136383 dated 02/10/2015, IPC F42B 12/06.).

The disadvantages of this technical solution include the fact that the material of the core of the bullet contains material with a density lower than the density of lead, the bullet does not have the ballistic properties inherent in bullets from lead. The complexity of manufacturing a two-part core.

The technical solution of the core is known, which has a cylinder head and a tail part, a shirt made of plastic in the form of a cup with a wall thickness of 0.1-1.5 mm and a base thickness of 0.1-5.0 mm, the head part of the core is made with a length of (0.8-2.3) d, has a spine shape with the ratio R: d = 3.5-8, the top of the head has a flat area with a diameter of (0.1-0.5) d, the core length is (2 , 6-4,2) d, where d is the bullet caliber, mm, R is the radius came to life, mm, the core is made of high-density material with a density in the range of 9.0-13.5 g / cm ³ , the basis of the material is diamond sludge grinding carbide products. The shirt covers from 40 to 100% of the outer surface of the core. The mass of sludge in the core material is 60-98%, the rest is carbon, phosphorus and one or more metals selected from the group of tin, zinc, aluminum, iron, copper, bismuth and mixtures thereof. The material is sintered. (RF patent No. 177806, application No. 2017113531 dated 04/19/2017, IPC F42B 7/00).

The disadvantages of this technical solution are not the manufacturability of the core from the presence of a shirt made of plastic in the form of a cup with a wall thickness of 0.1-1.5 mm and a base thickness of 0.1-5.0 mm,

The objective of the proposed solution is to create a core for a bullet with ballistic characteristics similar to a lead core pool, but not containing lead and not having a detrimental effect on the environment.

In the process of solving the problem, a technical result is achieved, increasing the manufacturability of the core, in reducing the cost of manufacturing the core.

The technical result is achieved by the core of a bullet of lead-free spheroids having a head and a tail, the head is made in the form of animate, length (0.8-2.3) d, with a flat area with a diameter of (0.1-0.5) d in the upper parts, and the tail part consists of a cylindrical part with a diameter of (0.72-0.86) d, and a truncated cone with a height of (0.1-1.0) d, the core length is (2.6-4.2) d, where d is the caliber of the bullet mm, the smaller diameter of the cone is (0.8-0.99) the diameter of the cylindrical part, the core is made of composite material consisting of spheroids with a diameter of (0.2-2.0) mm and a density within 9, 0-13.5 g / cm ³ interconnected by polyurethane, the basis of the material of the spheroids is the diamond grinding slurry of products from tungsten-cobalt alloys with a cobalt content of (3-15)%. In addition, the mass of sludge in the material of the spheroids is at least 90%, the rest is carbon, phosphorus and metal impurities from the group of tin, zinc, aluminum, iron, copper, bismuth and mixtures thereof, the spheroids are sintered.

Reducing the use of expensive materials is achieved due to the fact that the core is made of spheroids with a diameter of (0.2-2.0) mm, from a material with a density in the range of (9.0-13.5) g / cm ³ , the basis of which is diamond grinding slurry of products from tungsten-cobalt alloys with a cobalt content of (3-15)%. The necessary physical and mechanical properties of the core are achieved by thermomechanical activation of the sludge, and the production of spheroids with a diameter of (0.2-2.0) mm from it. The sludge is obtained by grinding with a diamond wheel at a speed of 30 m / s hard alloys of the VK group containing (3-15) wt. % cobalt, the rest is tungsten carbide. The resulting slurry was subjected to thermomechanical activation by calcination and subsequent grinding and spheroidization. The use of sludge, which is a waste in the production of hard alloy products, and low-cost technological processes, reduces the cost of a lead-free core. Subsequent separation of spheroids into fractions in sizes from 0.2 mm to 2.0 mm allows you to create a core by weight, identical to the core of lead. The use of polyurethane as a bunch of spheroids eliminates the process of sintering of the core, as well as giving the core material the plasticity necessary to create a bullet and its passage through the barrel when fired.

The use of spheroids of various sizes from 0.2 mm to 2.0 mm and the binding of spheroids with polyurethane allows dense filling of the shell volume, which eliminates the use of a shirt made of plastic in the form of a cup with a wall thickness of 0.1-1.5 mm and a base thickness of 0 , 1-5.0 mm, which simplifies the bullet manufacturing process. The presence of a pad with a diameter of (0.1-0.5) d, at the top of the head of the core, which is in contact with the inner area of the shell, after meeting the bullet with an obstacle, allows you to transmit a shock pulse to the entire core, fragmenting the core material into separate parts, which provides an increase in the damaging effect. The geometrical parameters of the core were determined taking into account the maximum core filling of the internal volume of the shell of the bullet while maintaining the center of gravity of the bullet close to the center of gravity of the bullet with a lead core.

The figure 1 presents the design of the inventive core bullets from lead-free spheroids.

The core has a head part 1.1 and a tail part consisting of a cylindrical part 2.1 and a truncated cone 2.2. The head part 1.1 of the core is made with a length of 1 (0.8-2.3) d, has the shape of a living element, the top of the head part has a flat area 1.2 with a diameter D1 = (0.1-0.5) d. The truncated cone 2.2 of the tail section is made with a height h = (0.1-1.0) d and a smaller cone diameter D2 = (0.80-0.99) D, where D = (0.72-0.86) d - the diameter of the cylindrical part 2.1 of the core. The core length L = (2.6-4.2) d, where d is the bullet caliber, mm. The core is made of a composite material consisting of 3 spheroids with a diameter of (0.2-2.0) mm and a density in the range of 9.0-13.5 g / cm ³ and a bundle of polyurethane 4, the basis of the spheroid material is diamond grinding sludge from tungsten-cobalt alloys with a cobalt content of (3-15)%. The mass of sludge in the material of spheroids is at least 90%, the rest is carbon, phosphorus and metal impurities from the group of tin, zinc, aluminum, iron, copper, bismuth and their mixtures, the spheroids are sintered.

The core manufacturing technology has been developed, and a pilot batch has been manufactured.

Claims (3)

1. The core of the bullet from lead-free spheroids, characterized in that it has a head and a tail, the head part is made in the form of animate (0.8-2.3) d in length with a flat area with a diameter of (0.1-0.5) d in the upper part, and the tail part consists of a cylindrical part with a diameter of (0.72-0.86) d and a truncated cone with a height of (0.1-1.0) d, the length of the core is (2.6-4.2) d where d is the caliber of the bullet mm, the smaller diameter of the cone is (0.8-0.99) the diameter of the cylindrical part, the core is made of a composite material consisting of spheroids with a diameter of (0.2-2.0) mm and a density within 9 , 0-13.5 g / cm ³ , interconnected by polyurethane, the basis of the material of the spheroids is the diamond grinding slurry of products from tungsten-cobalt alloys with a cobalt content of (3-15)%. 2. The bullet core according to claim 1, characterized in that the mass of sludge in the material of spheroids is at least 90%, the rest is carbon, phosphorus and metal impurities from the group of tin, zinc, aluminum, iron, copper, bismuth and mixtures thereof. 3. The core of the bullet according to claim 1, characterized in that the spheroids are sintered.

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