RU2524500C1 - Fowling 7,62×39-9 cartridge (with 9 g bullet) - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention can be used in development of charges for fowling 7.62×39-9 cartridges (with 9 g bullet). Proposed charge comprises spherical powder made of NC with content of nitrogen oxide of 212.0…214.0 ml NO/g, with diameter of powder elements of 0.65…0.95 mm, depth of fire crown of 0.31…0.37 mm, bulk density of 0.950…0.990 kg/dm³ at the following ratio of components, in wt %: 07 screen undersize powder fraction and 0.4 screen oversize fraction - at least 80; sum of coarse oversize fraction and fine undersize fraction - not over 20.

EFFECT: perfected performances.

1 tbl

Description

The invention relates to the development of charges for small arms and can be used in the development of charges for hunting cartridges 7.62 × 39 - 9 (with a bullet weighing 9 g).

Known charge of spherical powder (TFP) patent SU 1813292 A3, according to which the powder charge is made with a bulk density of 0.62 ... 0.72 kg / dm ³ from particles with a size of 0.2 ... 0.4 mm, phlegmatized from surface 2, 0 ... 4.0 wt.% Dibutyl phthalate, graphitized from the surface of 0.2 ... 0.3 wt.% Graphite, with a moisture content of 0.2 ... 0.5 wt.%, In the following mass ratio of fractions,%:

0.2 ... 0.4 mm not less than 75 less than 0.2 mm and more than 0.4 mm no more than 25

The use of this charge in a hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g) does not provide ballistic characteristics due to the low mass of the powder charge and the high pressure of the powder gases in the barrel of the weapon.

As a prototype, the authors chose patent RU 2448932 C2, according to which the powder charge for a 7.62 mm sports rifle cartridge is made of nitrocellulose (SC) with a nitrogen oxide content of 213 ... 214 ml NO / g, carbon and diphenylamine (DPA), with bulk density of 0.960 ... 0.990 kg / dm ³ , and the content of centralite I and dinitrotoluene (DNT) in the surface layer of grains is 3.0 ... 6.0 and 3.0 ... 4.5 wt.%, respectively, relative to the mass of the powder, in addition, the surface layer contains graphite in an amount of 0.1 ... 0.3 wt.% and ethyl acetate (EA) in an amount of 0.5 ... 1.2 wt.%, with a relative minutes humidity powder 0.3 ... 0.9 weight% at a weight ratio of fractions.%:

0.4 ... 0.56 mm 55 ... 68 0.56 ... 0.7 mm 27 ... 40 more than 0.7 mm and less than 0.4 mm no more than 5

The disadvantage of the prototype is that the obtained TFP does not provide ballistic characteristics in the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g) due to the high mass of the powder charge and the low speed of the bullet.

The aim of the invention is to provide stable ballistic characteristics of the powder charge for the hunting cartridge 7.62 × 39-9 (with a bullet weighing 9 g).

This goal is achieved in that the charge for the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g) from the TFP contains SC with nitric oxide content of 212.0 ... 214.0 ml NO / g, 10.5 ... 13, 5 wt.% Nitroglycerin (NHz), 0.3 ... 0.7 wt.% DFA, with a diameter of powder elements of 0.65 ... 0.95 mm, a thickness of the burning arch of 0.31 ... 0.37 mm, with a bulk density of 0.950 ... 0.990 kg / dm ³ , phlegmatized from the surface with a mixture of 2.0 ... 4.0 wt.% Centralite and 1.5 ... 3.1 wt.% DNT, graphite 0.1 ... 0.3 wt.% Graphite, with a content of 0.1 ... 0.9 wt.% EA and 0.2 ... 0.6 wt.% Moisture in the following mass ratio of particle fractions,%:

propellant fraction through the grid 07 and the remaining on the grid 04 not less than 80 amount of coarse fraction remaining on grid 07, and fine fraction through the grid 04 no more than 20

Nitrocellulose in the composition of the TFP serves as an energy and structural basis. A decrease in the content of nitric oxide of less than 212.0 ml of NO / g leads to an increase in the mass of the powder charge and, as a consequence, to a decrease in the flight speed of the bullet, and an increase in the content of nitric oxide of more than 214.0 ml of NO / g is associated with technological difficulties and additional labor costs when receiving SC.

Nitroglycerin in the composition of gunpowder is used as an energy supplement. The use of NHz less than 10.5 wt.% Leads to a decrease in the energy of the powder, which ultimately increases the mass of the powder charge and reduces the flight speed of the bullet. An increase in the composition of the NHz gunpowder of more than 13.5 wt.% Leads to an increase in the pressure of the powder gases in the barrel of the weapon.

Centralitis and DNT in the composition of gunpowder play the role of a phlegmatizing additive that ensures the progressive combustion of the powder charge. A decrease in centralite less than 2.0 wt.% And DNT less than 1.5 wt.% Leads to a decrease in the mass of the powder charge and an increase in the pressure of the powder gases in the barrel of the weapon, and an increase in centralite more than 4.0 wt.% And DNT more than 3.1 wt.% leads to an increase in the mass of the powder charge and a decrease in the flight speed of the bullet.

Diphenylamine is used as a stabilizer of chemical resistance. A decrease in DPA of less than 0.3 wt.% Leads to a decrease in the chemical resistance of gunpowder, and an increase in DPA of more than 0.7 wt.% Leads to a decrease in the specific heat of combustion.

Graphite in the composition of the TFP plays the role of a technological additive, which improves the flowability of the powder and reduces the electrostatic characteristics. A decrease in graphite of less than 0.1 wt.% Worsens the flowability of the powder and increases the electrostatic characteristics. An increase in graphite of more than 0.3 wt.% Leads to dusting of free graphite in the process of equipping cartridges.

Moisture and EA in the composition of gunpowder play the role of technological additives. A decrease in moisture of less than 0.2 wt.% And EA of less than 0.1 wt.% Is associated with additional labor costs, and an increase in moisture of more than 0.6 wt.% And EA of more than 0.9 wt.% Increases the mass of the powder charge and increases the pressure of the powder gases in the barrel of a weapon.

The fractional composition of the powder has a significant effect on the ballistic characteristics of the powder, for example, a decrease in the fraction of 0.7 and 0.4 mm of less than 80 wt.% And an increase in the amount of coarse and fine fractions of more than 20 wt.% Lead to a decrease in the mass of the powder charge and increase pressure of powder gases in the barrel of a weapon.

The table shows the characteristics of the developed powder charge from the TFP for the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g), performed within the boundary conditions (examples 1 ... 3) and outside the boundary conditions (examples 4, 5).

Note: Requirements for the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g): mass of the powder charge, g, - not more than 1.93, flying speed, m / s, - 712 ... 722, difference between the highest and lowest values of the bullet’s flight speed in the ballistic group, m / s, not more than 30, the pressure of the powder gases, kg / cm ² : average - not more than 2800, the largest - not more than 3050, the smallest - not less than 2300.

From the results shown in the table it can be seen that the powder charge developed by the authors from TFP (examples 1 ... 3) for a hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g) has a high bulk density, a given thickness of the burning vault and the diameter of the powder elements . All this made it possible to obtain stable ballistic characteristics in terms of the mass of the powder charge, the speed of the bullet, the dispersion of the speed of the bullets, and the average, maximum and minimum pressure of the powder gases in the barrel of the gun.

Outside of the boundary conditions (examples 4, 5), the powder charge does not satisfy both the speed of the bullet and the pressure of the powder gases in the channel of the barrel of the weapon.

Table - Physico-chemical and ballistic characteristics of the powder charge from the TFP for the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g)

Name of indicator Example (Ex. No. 1) Project No. 2 Project No. 3 Project No. 4 Project No. 5 Composition, wt.%: Nitrocellulose 85,4 70.8 77,2 87.7 72.3 Nitroglycerine 10.5 12 13.5 9 fifteen Centralit 2 3 four 1,5 6 Dinitrotoluene 1,5 2,8 3,1 1.3 4.0 Diphenylamine 0.3 0.5 0.7 0.2 0.9 Ethyl acetate 0.1 0.5 0.9 0.11 1,0 Moisture 0.2 0.4 0.6 0.2 0.8 Nitrocellulose with nitric oxide, ml NO / g 212.0 213.0 214.0 211.5 214.0 Diameter of powder elements, mm 0.65 ... 0.95 0.65 ... 0.95 0.65 ... 0.95 0.65 ... 0.95 0.65 ... 0.95 The thickness of the burning arch, mm 0.31 0.34 0.37 0.28 0.41 The bulk density of the powder, kg / DM ³ 0.950 0.970 0,990 0.930 0,990 Mass fraction of fractions 0.7 ... 0.4 mm 88 90 92 78 76 Mass fraction of fractions more than 0.7 mm and less than 0.4 mm fifteen 10 8 22 24 Chemical resistance, mmHg 45 45 45 45 45 Ballistic characteristics Bullet weight, g 9 9 9 9 9 The mass of the powder charge, g 1.91 1.92 1.90 1.80 1.95 Bullet flight speed, m / s 715 718 716 705 708 The spread between the largest and smallest values of the velocity of the bullet in the ballistic group, m / s 21 twenty 24 36 40 The pressure of the powder gases, kgf / cm ² Average 2720 2735 2731 2860 2810 The greatest 2940 2954 2932 3100 3150 Least 2450 2430 2445 2500 2650

Claims (1)

The charge for the hunting cartridge 7.62 × 39 - 9 (with a bullet weighing 9 g), designed to be placed in an encapsulated sleeve with a bullet, characterized in that the spherical powder contains nitrocellulose with a nitric oxide content of 212.0 ... 214.0 ml NO / g, 10.5 ... 13.5 wt.% nitroglycerin, 0.3 ... 0.7 wt.% diphenylamine, with the diameter of the powder elements 0.65 ... 0.95 mm, the thickness of the burning arch 0.31 ... 0.37 mm , with a bulk density of 0.950 ... 0.990 kg / dm ³ , phlegmatized from the surface with a mixture of 2.0 ... 4.0 wt.% centralite and 1.5 ... 3.1 wt.% dinitrotoluene, graphite 0.1 ... 0.3 wt. % graphite, with a content of 0.1 ... 0.9 wt. % ethyl acetate and 0.2 ... 0.6 wt.% moisture in the following mass ratio of fractions of particles,%:
propellant fraction
through the grid 07 and the remaining
on the grid 04 not less than 80
amount of coarse fraction
remaining on grid 07, and
fine fraction
through the grid 04 no more than 20