RU2488067C1 - CHARGE FOR 5,6 mm-SPORTING-HUNTING SHOT OF ANNULAR IGNITION - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: charge consists of spherical porous powder arranged in encapsulated cartridge case with bullet. Charge is composed of spherical powder elements consisting of gun-cotton with content of nitrogen oxide of 213.0-214.0 ml NO/g, 0.4-0.8 wt % of carbon and fixed graphite, 0.4-0.8 wt % of diphenylamine, 0.3-0.9 wt % of ethyl acetate of 0.1-0.7 wt % of moisture, of bulk density of 0.65-0.72 kg/dm³, phlegmatised from surface of 3.5-5.0 wt % of dibutyl phthalate, at the following ratio of fractions, %: 0.2-0.4 mm - not over 90, less than 0.2 mm and over 0.4 mm - not over 10.

EFFECT: increased bullet velocity.

1 tbl, 1 dwg

Description

The invention relates to the field of development of charges for cartridges for small arms.

Known charge for small arms from spherical powder (TFP) according to TU 750 6804-98-90, which is intended for use in a sporting and hunting cartridge of 5.6 mm caliber. The charge consists of fractions of 0.2 ... 0.4 mm of not less than 75.0 wt.%, More than 0.4 mm and less than 0.2 mm of not more than 2.0 wt.% With a bulk density of the powder charge of 0.61 ... 0 , 77 kg / dm ³ .

Such a powder charge provides a flight speed of 325 ± 5 m / s. An increase in the flight speed of the bullet leads to an increase in the pressure of the powder gases in the channel of the barrel of the weapon and, as a result, to rupture of the cartridges.

As a prototype, the authors chose patent SU 1813292 A3, according to which the powder charge is made with a bulk density of 0.62 ... 0.72 kg / dm ³ of particles with a size of 0.2 ... 0.4 mm, phlegmatized from the surface to a mass of powder of 2.0 ... 4.0 wt.% Dibutyl phthalate (DBP), graphitized from the surface of 0.1 ... 0.3 wt.% Graphite, with a moisture content of 0.2 ... 0.5 wt.% In the following weight ratio of fractions, wt.%:

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

The powder charge given for the prototype for 5.6 mm of a sport-hunting cartridge of ring ignition with a mass of powder charge of 0.10 ... 0.16 g provides a flight speed of 3 85 ... 405 m / s at a pressure of powder gases, MPa: average - not less than 88 , 2; the largest - no more than 127.5.

The aim of the invention is to increase the initial flight speed of a bullet in the barrel channel of a 5.6 mm sports and hunting rifle to 500 m / s.

The drawing shows the proposed 5.6 mm sporting and hunting cartridge of annular ignition. The cartridge contains a bullet 1, pressed into a sleeve 2 with an igniter 4, which contains a charge of spherical powder elements 3, consisting of pyroxylin with a content of nitric oxide of 213.0 ... 214.0 ml NO / g, 04 ... 08 wt.% carbon and bound graphite, 0.4 ... 0.8 wt.% diphenylamine (DPA), 0.3 ... 0.9 wt.% ethyl acetate (EA), 01 ... 0.7 wt.% moisture, with a bulk density of 0, 65 ... 0.72 kg / dm ³ , phlegmatized from the surface of 3.5 ... 5.0 wt.% DBP in the following mass ratio of fractions,%:

0.2 ... 0.4 mm - not less than 90 less than 0.2 mm and more than 0.4 mm - no more than 10

Required ballistic characteristics: mass of the powder charge is 0.14 ... 0.18 g, the average speed of the bullet is 485 ... 500 m / s, the difference between the highest and lowest values of the speed of the bullet is not more than 20 m / s, the pressure of the powder gases MPa : the greatest - no more than 161.8; the difference between the highest and lowest values of the pressure of the powder gases is not more than 19.6.

The authors found that the developed charge of powder elements consisting of pyroxylin with a nitric oxide content of 213.0 ... 214.0 ml NO / g, 0.4 ... 0.8 wt.% Carbon and bound graphite, 0.4 ... 0, 8 wt.% DFA, 0.3 ... 0.9 wt.% EA, 0.1 ... 0.7 wt.% Moisture, with a bulk density of 0.65 ... 0.72 kg / dm ³ , provides ballistic characteristics of 5 , 6 mm sport hunting rifle.

A decrease in nitroxide in pyroxylin of less than 213.0 ml NO / g leads to an increase in the mass of the powder charge and a decrease in the speed of the bullet, while an increase in nitric oxide in pyroxylin more than 214.0 ml of NO / g leads to an increase in the pressure of the powder gases in the barrel of the weapon.

A decrease in carbon and bound graphite in the composition of the powder is less than 0.4 wt.% Leads to a decrease in the rate of burning of the powder charge, which leads to an increase in the mass of the powder charge and a decrease in the flight speed of the bullet, an increase in carbon and bound graphite by more than 0.8 wt.% Positive effect does not give.

A decrease in the DFA in the composition of the powder elements is less than 0.4 wt.% Leads to a decrease in the chemical resistance of the powder charge, and an increase in the DFA of more than 0.8 wt.% Leads to a decrease in the energy of the powder. A decrease in EA in the composition of the powder charge of less than 0.3 wt.% Leads to an increase in labor costs, and an increase in EA of more than 0.9 wt.% Leads to a decrease in the energy of gunpowder

A decrease in moisture in the composition of the powder charge of less than 0.1 wt.% Is associated with technological difficulties in the process of drying the powder, and an increase in moisture in the powder charge of more than 0.7 wt.% Is associated with losses in the energy of the powder charge.

A decrease in bulk density of less than 0.65 kg / dm ³ leads to an increase in the burning rate of the powder charge, which ultimately leads to an increase in the pressure of the powder gases in the channel of the barrel of the weapon. An increase in the bulk density of gunpowder over 0.72 kg / dm ³ leads to an increase in the mass of the powder charge and a decrease in the flight speed of the bullet.

To ensure the progressive combustion of the powder charge, powder elements with a size of 0.2 ... ... 0.4 mm from the surface are phlegmatized 3.5 ... 5.0 wt.% DBP. A decrease in DBP in the powder charge of less than 3.5 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 DBP in excess of 5.0 wt.% Leads to an increase in the mass of the powder charge and a decrease in the speed of the bullet .

An increase in the fractions of powder elements over 0.4 mm leads to an increase in the mass of the powder charge, and an increase in the fraction less than 0.2 mm leads to a decrease in the mass of the powder charge and an increase in the pressure of the powder gases in the channel of the barrel of the weapon.

The table shows the characteristics of the powder charge developed by the authors for 5.6 mm of a sport-hunting cartridge of ring ignition with a bullet flight speed of 485 ... 500 m / s within the boundary conditions (examples 1 ... 3) and outside the boundary conditions (examples 4, 5) .

Table Powder charge characteristics for 5.6 mm annular sports hunting cartridge The name of indicators Example (Ex. No. 1) Etc. Number 2 Etc. Number 3 Etc. Number 4 Etc. Number 5 The content of nitroxide in pyroxylin, ml NO / g 213.0 213.5 214.0 212.0 214.0 The content of carbon and bound graphite, wt.% 0.4 0.6 0.8 0.1 0.9 The content of DFA, wt.% 0.4 0.6 0.8 0.2 1,0 EA content, wt.% 0.3 0.6 0.9 0.3 1,2 The moisture content, wt.% 0.1 0.4 0.7 0.1 1,2 The content of DBP, wt.% 3,5 4.2 5,0 2.0 6.0 Bulk density, kg / dm ³ 0.65 0.69 0.72 0.620 0.910 Mass fraction of fractions 0.2 ... 0.4 mm 90 94 92 60 92 Mass fraction of fractions more than 0.4 mm and less than 0.2 mm 10 6 8 40 8.0 The chemical resistance of the powder charge, mm Hg 21 28 thirty 25 40 Ballistic characteristics The mass of the powder charge, g 0.15 0.17 0.16 0.10 0.18 The average speed of the bullet, m / s 490 500 496 360 410 The difference between the highest and lowest values of the bullet’s flight speed, m / s fifteen eighteen 16 25 28 Pressure of powder gases, MPa The greatest 148.0 155.0 151.0 166.7 156.8 The difference between the highest and lowest values of the pressure of the powder gases in the bore of the weapon 17.6 14.7 16.6 24.5 29.4

From the above table data (examples 1 ... 3) it can be seen that the charge obtained by the authors for 5.6 sports and hunting cartridge for annular ignition of a hunting cartridge with a bullet speed of 485 ... 500 m / s provides all the specified requirements for ballistic characteristics. Outside the boundary conditions (examples 4, 5), the resulting charge does not meet the requirements of ballistic characteristics.

Claims (1)

The charge for a 5.6 mm sporting rifle cartridge of circular ignition, consisting of spherical powder, placed in a sleeve with a bullet, characterized in that the charge is made of spherical powder elements consisting of pyroxylin with a nitrogen oxide content of 213.0 ... 214, 0 ml NO / g, 0.4 ... 0.8 wt.% Carbon and bound graphite, 0.4 ... 0.8 wt.% Diphenylamine, 0.3 ... 0.9 wt.% Ethyl acetate 0.1 ... 0, 7 wt.% Moisture, with a bulk density of 0.65 ... 0.72 kg / dm ³ , phlegmatized from the surface of 3.5 ... 5.0 wt.% Dibutyl phthalate, with the following mass fractions,%:
0.2 ... 0.4 mm not less than 90 less than 0.2 mm and more than 0.4 mm no more than 10