RU2601662C1 - COMMON FULL ADJUSTABLE CHARGE FOR 82-mm MORTAR ROUND - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to weapons, namely to a common full adjustable charge (CFAC) for 3VO36 round for 2B24 82-mm mortar. It includes an additional charge (AC) from modified pyroxiline powder (PP) in rigid combustible powder bags (RCPB) arranged on the mine tail tube. It also contains the main charge from thin-arch fine-grained phlegmatized PP in a paper case with a metal sleeve. Latter contains an igniter. Main charge is arranged in a perforated mine tail tube. RCPB has a U-shape with fixing elements providing its reliable fixation on the mine tail tube. In the RCPB there is a modified PP with low dependence of combustion rate of on pressure (exponent ν in the combustion rate law makes 0.55÷0.65 within the pressure range of 20÷80 MPa). Herewith the powder is made as a single-channel grain with the ratio of grain diameter (d_g) to its length (L) of 0.4÷0.6 and the ratio of channel diameter (d_c) to the thickness of the burning arch (2e₁) of 0.2÷0.4.

EFFECT: provided are increased firing power of mortar systems; increased the capacity of powder in charge.

1 cl, 1 dwg, 3 tbl

Description

The invention relates to the field of military equipment, and more particularly to a device of propelling charges (MH) of a mortar shot. Currently known MH mortar rounds consist of the main charges (OZ) placed in the perforated tube of the mine stabilizer, and additional charges (DZ) in the fabric cartridges or in hard burning cartridges (HCC), mounted on the stabilizer tube. OZ is placed in a paper sleeve with a metal base, in which an igniter capsule is installed. OZ consists of fine ballistic tape gunpowder, a sample of the igniter from smoky gunpowder, separated from the sample ballist gunpowder by a diaphragm made of nitrofilm. The sleeve zapyzhivaetsya cardboard wads and rolls along the end. The additional charge consists of either nitroglycerin ring gunpowder (variable) or granular pyroxylin powder (long-range) (see "Temporary firing tables of 82-mm mortar 2B14-1 (2B14) for flat and mountain conditions MTC No. 96", Military Publishing House of the USSR Ministry of Defense , M., 1984, S. 211-212; “120 mm mortar model 1938. Service manual”, Military Publishing House of the Ministry of Defense of the USSR, M., 1969, P. 142-143).

The process of the shot is as follows. When a fast igniter capsule is pricked, it fires, as a result of which a hitch of an igniter from smoky gunpowder is ignited. Under the influence of powder gases and hot particles, ignition and burning of tape ballistic gunpowder occurs in a confined space of a paper sleeve. When a certain level of pressure is reached, the liner walls break through the stabilizer holes and ignite the DZ mounted on the stabilizer tube. Under the influence of the generated powder gases, a mine moves along the bore.

The current MZ for mortar rounds does not provide the entire range of the required speed scale with a maximum pressure limit, which is due to the use of nitroglycerin and pyroxylin gunpowders (PP) in their compositions, which have a high dependence of the burning rate on pressure and temperature.

Abroad, 82-mm mortars with the use of full variable charges (PPS) using cordite gunpowders superior in ballistic and operational characteristics to the shots of domestic mortars prevail in service.

In our country, domestic industry does not produce cordite gunpowders due to their high danger in manufacturing.

The use of commercially available PPMs of the brand VTM, VU, 4/1 as part of the PPZ does not make it possible to provide the required ballistic characteristics due to the impossibility of ensuring the entire range of the required speed scale with the established maximum pressure limit. An attempt to solve this problem by adjusting the geometric dimensions in the direction of increasing the thickness of the burning dome of standard gunpowder leads to the appearance of unburned residues on small charge numbers, which is unacceptable in connection with the requirements for firing safety.

Correspondingly, the use of full-time anti-aircraft missile defense systems for mortar rounds leads to the need to create, besides a variable, long-range charge in order to provide the required initial speed of a mine for firing at maximum range. This causes operational inconvenience associated with the need to complete combat crew with two types of charges.

Research on the creation of a projectile defense for an 82-mm round was carried out earlier, but at present this problem has not been solved.

To solve this problem, it is necessary to use gunpowder with a high burning rate at low pressure (100 ÷ 200 kgf / cm ² ) in the BF to exclude the appearance of unburned residues at small charge numbers and a reduced dependence of the burning rate on pressure within its variation to 800 kgf / cm ² to ensure compliance with the requirements for permissible pressure at the largest charge number.

As a prototype, the authors chose a regular 82-mm MZ, which has 2 charges separately: variable and long-range for firing at maximum range. Variable charge ind. 54-Zh-832DU consists of an OZ placed in a mine stabilizer tube, which is a sample of tape ballistic powder in a 67 mm capsule paper sleeve, and a DZ of annular ballistic powder placed in three excelsior cartridges that are put on the mine stabilizer tube . Long-range charge ind. 4D2 consists of an OZ similar to that used in a variable charge, and a DZ of VUfl gunpowder placed in a multi-section percale cap, which, like the alternating charge, is put on the mine stabilizer tube.

The use of this MZ in the 3BO36 shot for the 82-mm 2B24 mortar does not provide the required ballistic characteristics for the initial speed of the mine, the probable deviation of the initial speed of the mine and the maximum pressure of the powder gases in the channel of the mortar barrel. Also, the use of two separate charges to close the entire shooting range table is extremely low-tech and uneconomical.

The aim of this invention is the creation of a single full variable charge (EPPZ), which provides an increase in the power of mortar systems by using a modified PP in catalysts with catalysts with a low pressure dependence of the burning rate and an increased burning rate at a low pressure level (100 ÷ 200 kgf / cm ² ), increasing the weight of gunpowder and ensuring reliable functioning due to sustainable combustion with full heat in the temperature range from minus 50 to plus 50 ° C.

Closest to the proposed invention in composition, purpose and technical nature is the PP described in the book of V.I. Gindicha "Technology PP".

The disadvantage of this powder is the high dependence of the burning rate on pressure (the exponent in the law U = P ^ν is 0.9 ÷ 1.0) and the low burning rate at low pressures (100 ÷ 200 kgf / cm ² ), which does not allow to provide the required ballistic characteristics of a mortar shot.

To achieve the specified technical result in the mortar shot proposed by the authors of the EPPZ, the DZ placed in the ZhSK on the stabilizer tube is made of modified PP with combustion catalysts having a low dependence of the burning rate on pressure (the exponent ν in the law of the burning rate is 0.55 ÷ 0, 65 in the pressure range 20 ÷ 80 MPa) with an increased burning rate of 1.3 ÷ 1.4 times at P = 10 ÷ 20 MPa in comparison with the prototype gunpowder, the gunpowder made in the form of single-channel grain with a ratio of the diameter of the channel rna (d _n ) to its length (L) 0.4 ÷ 0.6 and the ratio of the diameter of the channel (d _k ) to the thickness of the burning arch (2e ₁ ) 0.2 ÷ 0.4.

The use of a mortar shot of a DZ placed in the HCC on a mine stabilizer tube made of modified PP with a small dependence of the burning rate on pressure and a high burning rate at low pressures (10 ÷ 20 MPa) in the form of a single-channel grain with a ratio of grain diameter to the length (d _n / L) = 0.4 ÷ 0.6 and the ratio of the diameter of the channel to the thickness of the burning arch (d _k / 2e ₁ ) = 0.2 ÷ 0.4, and OZ from fine-grained fine-refluxed phlegmatized PP with the introduction of the TGM phlegmatizer -3 in the amount of 0.1 ÷ 0.5% (MUDMfl) installed in the stabilizer p mines, forms a new set of essential features, allowing to obtain the positive effect indicated in the purpose of the invention.

In the table. Figure 1 shows data on the effect of the combustion characteristics of modified PP on the ballistic properties of EPPZ (with a ratio of d _n / L = 0.5 and d _k / 2e ₁ = 0.3).

As follows from the table. 1, EPPZ prototypes using modified gunpowder in DZ (for certain geometric dimensions - the ratio of grain diameter to its length (d _n / L) = 0.4 ÷ 0.6 and the channel diameter to the thickness of the burning arch (d _k / 2e ₁ ) = 0.2 ÷ 0.4) in terms of the level of the initial flight speed of the mine and the completeness of combustion at low pressures (the absence of unburned residues by No. 1) exceeds the prototype due to the small dependence of the burning rate on pressure (the exponent in the law of the burning rate is 0 , 67 ÷ 0.69), which is significantly lower than that of the powder IPA (ν = 1,028), and due to the increased burning rate at low pressures (1.3–1.4 times compared to standard PP), it ensures complete combustion at low pressures and stable operation at a temperature of ± 50 ° C in the range pressures 10 ÷ 80 MPa (options DZ 2-4).

When the indicator ν in the law of the burning speed of gunpowder and the magnitude of the burning rate outside any of the distinguishing features (variants DZ 5 and 6) change, there is no positive effect.

So, with a high dependence of the burning speed of the powder on pressure (ν≥l), significant charge degradation is observed, which leads to a large value of the maximum pressure, which requires a decrease in the charge mass, as a result of which the required ballistic characteristics are not provided (option 5, 6).

In the case of the use of gunpowder with a reduced level of burning rate in a pressure zone at a pressure level of 10 ÷ 20 MPa, which is characteristic for No. 1 (option DZ 5), the requirement on the completeness of combustion at the lowest charge numbers is not satisfied.

Along with the chemical composition, the size and shape of grains have a great influence on the ballistic characteristics of MOH. By changing the dimensions of the powder (the thickness of the burning arch, the outer diameter of the grain, the length of the grain, the diameter of the channel), one can achieve the desired regularity of the process of gas formation during the burning of gunpowder and the work of powder gases during a shot, which determine the speed of the mine.

Table 2 shows the experimental data on the influence of the geometric parameters of the modified PP on the ballistic characteristics of the EPPZ.

The data presented indicate that the effectiveness of the modified gunpowder (increased mine speed and the absence of unburned residues during firing) is manifested only with certain geometric parameters: when the ratio of grain diameter to length (d _n / L) = 0.4 ÷ 0.6 and channel diameter to the thickness of the burning arch (d _k / 2e ₁ ) = 0.2 ÷ 0.4 (options 1-3).

When the ratios (d _n / L) of more than 0.6 or less than 0.4 and (d _k / 2e ₁ ) of more than 0.5 and less than 0.1, it is not possible to provide the required ballistic characteristics and completeness of combustion.

Thus, only the combination of modified DZ powder with a burning rate at P = 10 ÷ 20 MPa is 1.3 ÷ 1.4 times higher than that of a standard PP (prototype), and its low pressure dependence (ν = 0.55 ÷ 0.65) with certain geometrical parameters of gunpowder, as well as OZ from a new fine-grained fine-consolidated PP with the introduction of a TGM-3 phlegmatizer in an amount of 0.1 ÷ 0.5% (MUDMfl) makes it possible to ensure stable operation and the required ballistic characteristics for the EPPZ for modern shots.

The indicated positive effect is confirmed by testing prototypes of DZ as part of the EPPZ, made in accordance with the invention.

Field tests as part of a shot for a modern 82-mm mortar shot showed the possibility of creating an EPPZ using the proposed modified PP with optimized geometric dimensions, which can increase the initial speed of the mine up to 10% compared with the existing long-range shot while ensuring complete combustion at the lowest charge number at low pressures.

View EPPZ shown in the drawing. An igniter capsule 2 is installed in the metal sleeve of OZ 1, a metal axial igniter tube (OVT) 3 is screwed into which a hitch of an additional igniter from coarse-grained black powder is filled (KZDP-2) 4. The OVT is pasted over with paper 5. Inside the sleeve is filled with gunpowder 6 M The OZ sleeve itself consists of a two-layer paper tube 7. On top of the OVT is covered with a circle of paper 8, and the sleeve is covered with cardboard wads 9. Outside, on the stabilizer 10, DZ 11 packages are installed in horseshoe-shaped housing with fixing elements, in which The modified powder 12 with catalytic additives with a small dependence of the burning rate on pressure (the exponent ν in the law of the burning rate of 0.55 ÷ 0.65 in the pressure range of 20 ÷ 80 MPa) and an increased burning rate (1.3 ÷ 1, 4 times more than regular PP at P = 10 ÷ 20 MPa), in the form of a single-channel grain with a ratio of grain diameter (d _n ) to its length (L) 0.4 ÷ 0.6 and a ratio of channel diameter (d _k ) to the burning thickness arch (2e ₁ ) 0.2 ÷ 0.4.

The work of the proposed MH mortar shot is as follows.

When a quick-ignition capsule 2, located in a metal sleeve of OZ 1, is punched, it fires, after which hot particles and gases ignite a sample of coarse-grained smoke powder 4. The gases and hot particles generated by ignition break through the pasting 5 and unfasten the circle 8, ignite the sample fine-consolidated fine-grained phlegmatized PP 6. When a certain level of pressure is reached in the OZ liner, the liner is stripped out, the perforation holes are punched, and the combustion products flow out dnuyu cavity stabilizer tube 10. After breaking the perforation begins to escape of propellant gases generated by combustion OZ, in the mortar barrel and inflammation DZ 11. As a result of the movement begins mines channel trunk.

The authors found that the EPPZ developed for firing a 3BO36 to 82-mm mortar 2B24 with a mine mass of 4.4 kg provides ballistic characteristics: the mass of the powder charge in the explosives is not more than 17.2 g and in the explosives not more than 231 g, the average initial mine speed is the maximum charge is 314 ... 326 m / s, the probabilistic deviation of the initial velocity of the mine is not more than 2 m / s, the average maximum pressure in the bore is not more than 68.6 MPa, the maximum maximum pressure in the bore on individual shots is not more than 78 9 MPa.

The presence of fixing elements in the HCC with a horseshoe-shaped design eliminates the decline of the HBC during the formation of the shot, loading and firing (in the process of moving the shot along the barrel of the mortar).

The use of modified gunpowder with a small dependence of the burning rate on pressure (exponent ν in the law of the burning rate of 0.55 ÷ 0.65 in the pressure range 20 ÷ 80 MPa) and an increased burning rate (1.3 ÷ 1.4 times more than regular PP at P = 10 ÷ 20 MPa), in the form of a single-channel grain with a ratio of grain diameter (d _n ) to its length (L) 0.4 ÷ 0.6 and a ratio of channel diameter (d _k ) to the thickness of a burning roof ( 2e ₁ ) 0.2 ÷ 0.4 ensures reliable charge operation over the entire pressure range.

The use of modified gunpowder allows for the complete combustion of charge No. 1 (one DZ package) in the ZhSK in the operating temperature range from minus 50 to plus 50 ° C (pressure level ~ 14.7 MPa) and placement of the necessary sample for charge No. 6 (6 DZ packages ) in HBC, the total height of which is limited by the length of the stabilizer tube.

The test results of the design of the EPPZ are shown in the table.

From the results given in the table, it can be seen that the proposed design of the EPPZ provides the required ballistic characteristics for the 3BO36 shot to the 82mm 2B24 mortar and ensures the closure of the entire speed scale for the firing range.

Claims (1)

A single full variable charge for a 3ВO36 mortar shot to an 82-mm 2B24 mortar, consisting of an additional charge (DZ) of pyroxylin gunpowder (PP) in hard burning cartridges fixed to the mine stabilizer tube and placed in the perforated tube of the mine charge stabilizer from the fine fine-grained single-channel PP with the introduction of a phlegmatizer TGM-3 in an amount of 0.1 ÷ 0.5% in a paper sleeve with a metal sleeve in which a primer-igniter is installed and a metal central igniter is screwed nth device, characterized in that the DZ is made of modified PP with a small dependence of the burning rate on pressure (exponent ν in the law of the burning rate of 0.55 ÷ 0.65 in the pressure range of 20 ÷ 80 MPa) and an increased burning rate (in 1, 3 ÷ 1.4 times more than regular PP at P = 10 ÷ 20 MPa) in the form of a single-channel grain with a ratio of grain diameter (d _n ) to its length (L) 0.4 ÷ 0.6 and a ratio of channel diameter (d _k ) to the thickness of the burning arch (2e ₁ ) 0.2 ÷ 0.4.

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