RU2269503C1 - Striking composition - Google Patents

Abstract

FIELD: chemical industry; production of striking composition for explosives.

SUBSTANCE: the invention is pertaining to the field of chemical industry, in particular, to production of striking composition for explosives, mainly to the striking composition of the cap-igniters for cartridges of the ring-type ignition. The offered striking composition contains: diazodinitrophenol, potassium salt azididinitrophenol, tetrazen, potassium permanganate, vein quartz used as an inertial sensitizer and a polymetric compound from the row of synthetic rubbers. The invention has the purpose to produce a pollution-free striking composition with the optimum physicochemical characteristics ensuring reliability of ignition, stability of burning and a propellant charge burning completeness. Such a striking composition reduces amount of the unburnt residue of a shot by 20-30 %, improves its accuracy, increases duration between the gun barrel cleanings of up to 300 firings, eliminates the phenomenon of a protracted shot.

EFFECT: the invention ensures production of a pollution-free striking composition with the optimal physicochemical characteristics, high reliability of inflammation, stability of burning, completeness of the propellant charge burning, reduction of the unburnt residue amount of the shot, improvement of its accuracy, an increased duration between the gun barrel cleanings up to 300 firings, elimination of the phenomenon of a protracted shot.

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Description

The invention relates to the field of explosives, in particular to the shock compositions of igniter caps for sports, assembly and construction and hunting cartridges of ring ignition.

In addition to physicochemical requirements, modern percussion compositions must satisfy the environmental conditions of the shot products and ensure their non-rusting properties.

Impact compositions are known, for example, a ring-ignition cartridge according to RF patent No. 2086899, containing TNRS, tetrazene, lead dioxide, barium nitrate, antimonium, fluoroplastic and graphite. This composition has good physicochemical characteristics that provide a satisfactory ballistic effect of the propellant charge, but the presence of lead and barium compounds in the formulation does not allow it to be considered environmentally friendly, and insufficient thermal momentum does not contribute to the complete combustion of the propellant charge, which leads to the appearance of a large amount of unburned residues shots.

Impact compositions are known, for example, a non-toxic, non-corrosive initiating mixture of US Pat. No. 4,675,059, containing diazodinitrophenol, tetrazene, manganese dioxide and glass. Hazardous compounds are absent in the combustion products of the composition, but the imbalance of the components of the composition in terms of density leads to instability of its operation, and therefore to instability of ballistic characteristics, misfires, a protracted shot, and loss of accuracy. In addition, insufficient thermal momentum does not ensure the completeness of combustion of the propellant charge.

The closest in combination of essential features and the achieved result is a pyrotechnic shock igniter composition for small arms cartridges according to the RF patent No. 2086523, containing diazodinitrophenol 20-70 wt.%, Potassium salt of azidodinitrophenol 10-30 wt.%, Tetrazene 5-15 wt.% and ceramics as an inert sensitizer of 15-35 wt.%. The prototype does not contain rusting as well as environmentally hazardous compounds and has a potentially large thermal pulse, which contributes to the rapid achievement of maximum pressure, but the absence of an active oxidizing agent does not allow the thermal pulse to be fully realized, i.e. ensure combustion stability and completeness of combustion of the propellant charge. This leads to the appearance of a protracted shot, misfires, the presence of a relatively large number of unburned remains of the shot, and loss of accuracy.

The objective of the invention is to develop an environmentally friendly impact composition with optimal physico-chemical characteristics, providing stability of combustion and completeness of propellant charge combustion, with obtaining a technical result in the form of reducing the mass of the impact composition, eliminating a protracted shot, reducing the number of unburned shot residues, and obtaining optimal ballistic results and accuracy.

The problem is solved due to the fact that in a known composition containing diazodinitrophenol, a potassium salt of azidodinitrophenol, tetrazene and an inert sensitizer, potassium permanganate and a polymer are additionally introduced in ratios (wt.%): Diazodinitrophenol 15-35, potassium salt of azidodinitrophenol 35-50, tetrazene 3-10, potassium permanganate 5-30, vein quartz as an inert sensitizer 10-30, polymer 1-2.5.

In the existing shock compositions, the indicated set of essential features has not been identified, which allows us to consider this technical solution as meeting the criterion of "novelty."

To obtain stable ballistic characteristics of the shot, it is necessary to ensure the reliability of the ignition of the propellant charge, the optimal combustion mode and the maximum completeness of its combustion. When the shock composition is triggered, a force of flame occurs, consisting of hot gaseous products of combustion of the composition with inclusions of hot solid particles of the sensitizer. The gas component of the flame allows you to cover the maximum surface area of the propellant charge, while the reliability of ignition depends on the temperature of the gas medium, i.e. requires a significant thermal pulse of the shock composition. In turn, hot solid particles for reliable ignition of the propellant charge must actively maintain their own high temperature due to the oxygen of the oxidizing agent.

In existing shock compositions, both components of the ignition process of the propellant charge act in different ratios.

For example, the impact composition according to the patent of the Russian Federation No. 2086899 has a relatively small heat pulse, which does not allow to obtain a workable gas component, while reliable ignition and stable layer-by-layer burning of the propellant charge is ensured by the presence of a sufficiently large amount of hot solid particles and an active oxidizing agent, which is confirmed by a qualitative analysis of unburned residues shots in which, along with partially melted, there is a relatively large number of grains of gunpowder not affected by combustion m

In the shock composition of the prototype, the gas component of ignition predominates, which is confirmed by the rapid achievement of maximum pressure and the absence of powder grains in the unburned remains of the shot, not affected by combustion. At the same time, the relatively large number of residues and the weakly expressed nature of their melting indicate a premature, despite a significant heat pulse, cessation of combustion, which is explained by a drop in the temperature of solid particles due to the absence of active oxygen and the presence of a large amount of diazodinitrophenol, which is close in characteristics to high explosive substances and causing a shock wave, possibly contributing to the cessation of combustion.

In the proposed impact composition, the presence of potassium permanganate, freely releasing oxygen, makes it possible to maintain solid particles in a hot state, while the presence of a sufficiently large number of initiating explosives provides the necessary thermal impulse to form a workable gas component, which makes it possible to optimally use both components of the ignition process. This is confirmed by the relatively rapid achievement of maximum pressure and a small amount of unburned remains of the shot, consisting of fused grains of gunpowder, burned by 40-50 percent. The low, in comparison with the prototype, diazodinitrophenol content is not enough for the formation of a shock wave, which can adversely affect the combustion of the propellant charge. As a sensitizer, vein quartz was used, which has a high melting temperature (more than 1000 ° C) and is not inferior to antimony in properties. To improve the manufacturability of the composition, a polymer from the category of synthetic rubbers was used, which, together with the foregoing, ensures the achievement of the claimed technical result.

The claimed combination of distinctive features, expressed as a combination of quantitative and qualitative characteristics of the ingredients of the impact composition, is not identified in the patent and scientific and technical information, which confirms the compliance of the proposed technical solution with the criterion of "inventive step".

Table 1 shows the compositions of the prototype and the present invention in versions of the weight performance of the ingredients; table 2 - experimental data on the sensitivity of the compositions; table 3 - the results of comparative tests of the ring ignition cartridge "Sable" with full-time impact composition, impact composition of the prototype and the proposed impact composition; table 4 - the results of comparative tests of cartridges of the prototype and the proposed invention on the reliability of operation in systems of caliber 5.6 mm

The technology for preparing the composition is similar to the technology adopted in the production of igniter capsules. Obtained by known technologies, diazodinitrophenol and the potassium salt of azidodinitrophenol after completion of the synthesis are washed with a 1-2% polymer solution, dried and mixed in dry form with other components until a homogeneous mechanical mixture is obtained. Next, a sample of the composition is poured into the sleeve of the annular ignition cartridge and pressed at a specific pressure of 800-1000 kgf / cm ² .

To verify the claimed technical solution, several compositional options with different ratios of ingredients were prepared.

Table 1 presents 4 options for the impact composition, having average and boundary values from the proposed relationships.

The proposed compositional composition and composition of the prototype were tested in a capsule sleeve .22 LR for the safety of operation of the capsule, as well as the failure-free operation under normal conditions, conditions of high humidity and after shaking tests. The tests were carried out according to the methodology adopted at the enterprise.

From table 2 it follows that the proposed compositions have better sensitivity to shock, and in conditions of humidity and after shaking, significantly better characteristics. In addition, the proposed compounds are safer.

To check the ballistic and other characteristics of the shot under production conditions, several batches of .22 LR Sobol cartridges were made with the shock composition options according to Table 1 and the standard composition identical to the characteristics of the composition according to RF patent No. 2086899. The propellant charge mass was selected so that provide close values for the speed of the bullet.

From table 3 it follows that with a smaller sample of the impact composition, the pressure of the powder gases by the proposed solution is lower, and the accuracy is higher than that of the prototype. In addition, having a larger than the prototype, the mass of the propellant charge, the mass of unburnt remnants of the shot from the cartridge with the proposed composition is lower than that of the cartridge with the composition of the prototype.

The essential features claimed in the claims are interconnected, and their change outside the specified limits leads to a deterioration in the characteristics of the impact composition.

A decrease in the diazodinitrophenol content below 15 wt.% Leads to a decrease in the heat pulse power and, accordingly, the ignition properties of the impact composition. The content of more than 35 wt.% Leads to amplification of the shock wave to values that can adversely affect the combustion of the propellant charge.

A decrease in the content of the component below 35 wt.% Reduces the flammability, and an increase of over 50 wt.% Significantly reduces the sensitivity to shock.

A decrease in the content of tetrazene below 3 wt.% Significantly reduces the sensitivity to shock, an increase of over 10 wt.% Reduces the technological properties of the composition, without changing its sensitivity.

With a decrease in the content of this component below 5 wt.%, The flammability of the composition decreases, an increase of over 30 wt.% Leads to the appearance of oxidizing crystals in unburned residues that do not enter into the redox combustion reaction.

An increase in the content of the sensitizer above the specified limit of 30 wt.%, Leads to a decrease in the safety limit, i.e. increased sensitivity to shock and self-operation of the capsule when sending the cartridge into the chamber. A decrease in the content of the sensitizer below 10 wt.% Leads to a decrease in the energy characteristics of the composition and a decrease in sensitivity to shock.

The polymer content provides manufacturability, i.e. polymer-treated initiating explosives (diazodinitrophenol, potassium salt of azidodinitrophenol) are safer to use, the composition compacted in the sleeve flange does not give chips, cracks, and the composition does not dust during interoperational transport of encapsulated products, which also increases the safety when loading cartridges and the reliability of their functioning. With a decrease in the polymer content of less than 1 wt.%, The technological effect is not achieved, with an increase in excess of 2.5 wt.%, The composition is prone to clumping.

A batch of .22LR Sable cartridges with prototype, full-time, and variant 3 shock formulations that showed optimal performance was tested for reliability and stability. The verification was carried out by firing from samples of weapons available at the enterprise at various ambient temperatures according to the methods used at the enterprise in serial production. From table 4 it follows that the reliability and stability of operation of the cartridge with the claimed composition exceeds the prototype.

Thus, the results of studies and comparative tests indicate that the proposed impact composition with a smaller sample provides optimal ballistic characteristics, high accuracy, reliability and stability of operation, failure-free operation of the cartridge, which together allows us to consider this technical solution to meet the criterion of "Industrial applicability".

Table 1 Impact Components Variants of mixtures and the content of components of the impact composition, wt.% Prototype Option 1 Option 2 Option 3 Option 4 Diazodinitrophenol fifty twenty 35 25 fifteen Potassium salt of azidodinitrophenol twenty fifty 35 35 thirty Tetrazene 5 5 10 8 3 Vein quartz - fifteen 7.5 fifteen 25 Potassium permanganate - 8.5 10 16 25 Ceramics 25 - - - - Polymer - 1,5 2,5 one 2

table 2 Sensitivity characteristics Variants of mixtures. Drop height at 100% ignition, cm Prototype Option 1 Option 2 Option 3 Option 4 Safety capsule when exposed to a falling load weighing 307 g 3 3 four four four Reliability of the capsule when exposed to a falling load weighing 307 g eleven 10 12 10 12 Reliability of the capsule after holding for 4 hours at high humidity in the desiccator when exposed to a falling load weighing 307 g 13 10 12 10 12 The reliability of the capsule when exposed to a falling load of 307 g after shaking the test (60 beats per minute from a height of 150 mm) for 8 minutes fifteen 10 12 10 12

Table 3 Options .22LR Sable Prototype Variants of mixtures. Characteristics Option 1 Option 2 Option 3 Option 4 The mass of the shock composition, g 0,038 0,029 0.024 0.024 0.024 0.024 The mass of the powder charge, g 0,084 0,069 0,084 0,084 0,084 0,084 The pressure of the powder gases P _{max cf} , kgf / cm ² 1135 1005 948 1003 940 965 Bullet flight speed, m / s 318 315 328 330 314 322 Accuracy, (dispersion cross-section) P _cf. mm 41 32 24 26 23 26 The mass of unburned remains of the shot, g 0.0126 0.0090 0.0075 0.0078 0.0072 0.0084 - including slags of the impact composition, g 0.0026 0.0018 0.0015 0.0016 0.0014 0.0017 - including unburned grains of gunpowder, g 0.01 0.0072 0.0060 0.0062 0.0058 0.0067 Time to reach P _max , ms 0.599 0.334 0.432 0.428 0.416 0.442 Thermal energy, kJ / kg 206.2 564.4 482.3 473.6 479.1 470.9

Table 4 Variants of mixtures. Operating modes Weapons Firing Results,% Reliability Pistol walter Gun browning Margo Pistol MTs pistol Izh-35M pistol Rifle TOZ-78 SM-2 rifle .22LR Sable - plus 20 ° C one hundred 99.8 99.9 one hundred 99,2 one hundred one hundred - plus 50 ° C one hundred 99.9 one hundred one hundred 99,4 one hundred one hundred - minus 50 ° C 99,2 97.4 99,2 99.6 99.1 99.8 99.6 Prototype - plus 20 ° C one hundred 99.9 * one hundred one hundred one hundred one hundred one hundred - plus 50 ° C one hundred one hundred one hundred one hundred one hundred one hundred one hundred - minus 50 ° C 99.9 98.8 99.6 99.8 99.9 one hundred 99.9 * Option 3 of the proposed mixture - plus 20 ° C one hundred one hundred one hundred one hundred one hundred one hundred one hundred - plus 50 ° C one hundred one hundred one hundred one hundred one hundred one hundred one hundred - minus 50 ° C one hundred one hundred 99.9 one hundred one hundred one hundred one hundred Number of shots before cleaning the barrel when firing a weapon, pcs. - .22LR Sable - - - - - fifty fifty - prototype 220 220 - option 3 300 300 * - a long shot was recorded

Claims (1)

The shock composition containing diazodinitrophenol, potassium salt of azidodinitrophenol, tetrazene and an inert sensitizer, characterized in that it contains potassium permanganate and a polymer from a number of synthetic rubbers, and as an inert sensitizer it contains vein quartz in the following ratio of components, wt.%: Diazodinitrophenol 15-35 Potassium salt of azidodinitrophenol 35-50 Tetrazene 3-10 Potassium permanganate 5-30 Inert Sensitizer 10-30 Synthetic Rubber Polymer 1-2,5