RU2086523C1 - Pyrotechnical striking ignition composition for small arms cartridges - Google Patents

Abstract

FIELD: pyrotechnics. SUBSTANCE: composition has, wt.-%: diazodinitrophenol, 20-70; azidodinitrophenol potassium salt, 10-30; tetrazene, 5-15; and ceramics, 15-35. Composition is prepared by components mixing. EFFECT: enhanced quality of composition. 4 tbl

Description

 The invention relates to cartridge production, and in particular, to percussion pyrotechnic compositions for igniter capsules of small arms cartridges, including for sport-hunting and building-fire cartridges of ring ignition.

 Currently, the developers of cartridges, as well as in other areas of technology, have been given the task of improving the ecology, significantly reducing harmful products for humans and the environment that occur when shooting without compromising energy and ballistic characteristics.

 This task is especially relevant when shooting indoors, shooting ranges, when using sports and hunting, building and other cartridges.

 Known shock ignition composition (UVS) [1] which includes explosive mercury, Bertolet salt and antimony.

 The disadvantage of this composition is the increased corrosion of the barrel of the weapon and the high toxicity of mercury resulting from the chemical reaction that occurs when the composition is burned. Moreover, corrosion and destruction of the barrel occur both as a result of the deposition of metallic mercury on the barrel, causing microcracks, and because of the intense interaction of sulfur dioxide and chlorine ions of chemical reaction products, which, accordingly, corrode and oxidize iron.

 There is a well-known UVS [2] in which, due to the replacement of barletol salt with barium nitrate, and explosive mercury with a mixture of tetrazene and lead trinitroresorcinate, a significant decrease in the rusting effect of combustion products on the barrel is achieved.

The disadvantage of this UVS, selected as a prototype, is the presence in its composition of chemical compounds of lead, which are toxic in terms of mercury compounds and many times exceed the requirements for maximum permissible concentrations (MPC) when shooting indoors for elements and their compounds formed when combustion air-blast [3]
Known UVS [4] selected as a prototype as the closest to the proposed chemical composition. This HCS does not contain, during combustion, the most hazardous products for humans with lead and mercury, however, the presence of manganese in its combustion products does not allow it to be considered environmentally friendly.

In addition, manganese dioxide has a density of 5.03 g / cm ³ , which is significantly higher than that of the other components of the mixture (diazodinitrophenol, tetrazene, glass) and leads to delamination of the composition and its unstable operation, and therefore to instability of ballistic characteristics. In addition, the analysis of data on the burning rates of the components of this HCS shows that this composition does not meet the modern requirements for the burning rate that compositions based on, for example, lead trinitroresorcinate provide, which also reduces the stability of ballistic characteristics and can lead to prolonged shots, which is unacceptable in small arms cartridges.

 When developing the proposed HCS, the task was to significantly increase the energy and ballistic characteristics while improving the moisture resistance of the HCS and the environmental friendliness of its combustion products.

This problem was solved in the proposed UVS due to the fact that it contains diazodinitrophenol, potassium salt of azidodinitrophenol, tetrazene and an inert sensitizer ceramics, while the components are taken in the following percentage by weight:
Diazodinitrophenol 70-20
Potassium salt of azidodinitrophenol 10-30
Tetrazene 5-15
Inert Sensitizer 15-35
Distinctive features of the proposed HCS are: the introduction of azidodinitrophenol into the potassium salt, the use of ceramics as an inert sensitizer, and the new weight composition of the HCS.

 The proposed combination meets the criterion of the level of inventive creativity, since in the aggregate it ensures the achievement of a technical result that is not a function of a particular feature.

 In the table. 1 shows the estimated compositions of the combustion products of the proposed UVS, prototype and UVS sports cartridge "Temp"; table 2 shows the results of comparative tests of the domestic sports and hunting cartridge cartridge "Temp", the same cartridge with a new air-conditioning unit and the same cartridge with a new air-conditioning unit and a reduced weight of the powder charge (for identical ballistic characteristics); Table 3 shows the compositions of the three options for the UVS with various quantitative weight versions of the ingredients; table 4 shows the experimental test data of the above three options for air-blast for shock sensitivity, moisture resistance and heat resistance, as well as ballistic characteristics of cartridges based on the domestic cartridge "Temp" with data from air-blast.

 The manufacturing technology of the proposed air defense system does not differ from the manufacturing technology of the air defense system of existing sporting and hunting and mounting cartridges, including the Temp cartridge.

By known technology, diazodinitrophenol and the potassium salt of azidodinitrophenol are prepared. Further, all components in dry form are mixed in a mixer until a homogeneous mechanical mixture is obtained. Then the sample is poured into the sleeves of the cartridges of annular ignition and pressed at a specific pressure of 800-1500 kg / cm ² .

 Methods of equilibrium thermodynamics for the proposed UVS, prototype and sports cartridge "Temp" were calculated and experimentally determined the composition of the combustion products, as well as the strength and temperature of combustion, are given in table 1.

 From table 1 it is seen that the proposed UVS in comparison with the prototype contains much less harmful combustion products for humans and the environment.

 The composition has a 2 times lower density and 2-2.5 times more strength, which is a positive factor affecting the stability of the ignition of the powder charge and ballistic characteristics.

 To test the performance and confirm higher technical characteristics, experimental tests were carried out on a copra with sensitivity measurement and determination of ballistic characteristics on a ballistic installation with recording the pressure curve in the barrel for three cartridges: the domestic cartridge “Temp” of ring ignition, the same cartridge, but with a new one Air-blast and cartridge with a new air-blast and with a reduced powder charge.

 The test results are shown in table.2.

 From the table. 2 it can be seen that, with the same powder charge, the proposed HCS provides higher and more stable ballistic characteristics, and in order to achieve ballistic characteristics identical to the Temp cartridge, it is necessary to reduce the mass of the powder charge while maintaining the adequacy of the combustion law and sensitivity characteristics.

 The shorter ignition time of the powder charge provided by the proposed UVS is a positive factor for the stability of the shot and accuracy of fire.

 Table 3 shows three options for the proposed HCS, and table 4 shows the results of testing them for shock sensitivity, moisture resistance, heat resistance and ballistic characteristics based on the “Temp” ring-shaped cartridge.

 From the table. 4 it is seen that in all cases the best characteristics of the proposed cartridge (cartridge with a new UVS) are provided in comparison with the prototype.

 Tests have shown that with a decrease in the content of diazodinitrophenol and the potassium salt of azidodinitrophenol, the ignition properties of HCS are significantly reduced, which is unacceptable.

 With an increase in their content over the limits indicated in the composition, the sensitivity decreases significantly, which entails failures in the work of cartridges.

 With a decrease in tetrazene in the HCS below the specified limit, a decrease in the sensitivity of more than acceptable is observed, and with an increase in tetrazene over the specified limits, the ignition properties of the HCS are significantly reduced.

With a decrease in the inert sensitizer (ceramics with a density of 1.5-2.5 g / cm ³ ), a decrease in sensitivity to unacceptable limits is observed, and with an increase in this component above the specified limits, the technological explosion hazard at the beginning increases significantly, and then with an increase in the number of sensitizer the HCS becomes unworkable.

 Currently, cartridges based on the new UVS are in the industrial development stage.

Claims (1)

 Pyrotechnic shock igniter composition for small arms cartridges containing diazodinitrophenol, tetrazene and an inert sensitizer, characterized in that the potassium salt of azidodinitrophenol is introduced into its composition, and ceramics is taken as an inert sensitizer in the following ratio of components, wt. Diazodinitrophenol 20 70
Potassium salt of azidodinitrophenol 10 30
Tetrazene 5 15
Inert Sensitizer 15 35e

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