RU2026275C1 - Gun-powder composition - Google Patents

Abstract

FIELD: development of gun-powder compositions. SUBSTANCE: gun-powder composition has, wt. -% : grains of ballistite solid rocket fuel 48-74; instrumental oil 1-2, and granulated pyropowder containing, wt.-%: alcohol-ether mixture 1.0-2.5; diphenylamine 1-2; water 0.5-1.5, and pyroxylin - the rest. Grains of ballistite solid rocket fuel has ballistite solid rocket fuel prepared on the basis of nitroglycerol or the mixture of nitroglycerol with diethylene glycoldinitrate. EFFECT: increased effectiveness of gun-powder composition due to decreased sensitivity to mechanical effects, increased critical diameter of detonation - up to 90-120 mm. 2 cl, 1 tbl

Description

 The invention relates to the development of powder compositions used as borehole charges in mining and construction.

 Known granular pyroxylin powder, containing, wt.%: Alcohol-ether mixture of 1.0-2.5; diphenylamine 1-2; water 0.5-1.5; the rest is pyroxylin.

 The disadvantages of pyroxylin gunpowder are high sensitivity to mechanical stresses, instability of the detonation parameters when pyroxylin gunpowder is in flooded conditions.

 The purpose of the invention is to increase efficiency by reducing sensitivity to mechanical stress and increasing the critical detonation diameter to 90-120 mm.

This is achieved by the powder composition, including granular pyroxylin powder, containing, wt.%: Alcohol-ether mixture of 1.0-2.5; diphenylamine 1-2; water 0.5-1.5; the rest is pyroxylin and optionally granules of ballistic solid rocket fuel and instrument oil in the following ratio of components, wt. %: Ballistic solid fuel granules 48-74 Instrument oil 1-2 Grain pyroxylin powder containing, wt.%: Alcohol-ether mixture 1.0-2.5, diphenylamine min 1-2; water 0.5-1.5; pyroxylin - the rest is
new.

 Moreover, ballistic solid rocket fuel pellets contain ballistic solid rocket fuel based on nitroglycerin or a mixture of nitroglycerin with diethylene glycol dinitrate.

The ratio of components of the powder composition is optimized in terms of achieving satisfactory values of sensitivity to impact and friction, detonation (d _cr and operational (water resistance, flowability, electrification, uniformity of charge in chemical composition, etc.) characteristics using BRTT granules containing, by weight. %:
I II III Nitrocellulose 5.3-60 55-61 55-60 Nitroglycerin 23-28 24-28 15.0-17.5 Diethylene glycol colitinitrate - - 14.0-16.5 Dibutyl phthalate 1.2-3.5 - - Dinitrotoluene 7-14 5.0-12.5 0.5-4.5 Chemical stability stabilizer (centralit, diphenylamine) - 2.0-3.5 0.7-3.6 Vaseline oil 0.7- 1.5 0.7-1.5 0.5-1.3 Combustion modifiers 2-3.3 1.9-6.0 2-4
Examples of the proposed powder composition and its basic properties in comparison with the prototype pyroxylin powder are shown in the table.

 From the table it follows that the proposed powder composition has a sensitivity to mechanical stress of 1.5-2 times lower, the minimum ignition energy is 1.25-1.4 times higher than the prototype.

 When the content of the instrument oil is more than 2 wt.% (Example 5), the powder composition is physically unstable (exfoliates into two phases: granules of gunpowder and oil) and is inoperative due to the high value of the critical diameter of the detonation, with a content of less than 1 wt.% (Example 6) powder composition has a high sensitivity to mechanical stress.

 When the content of granules BRTT more than 74 wt.% (Examples 6 and 8), the powder composition is inoperative due to the high value of the critical diameter of the detonation, when the content is less than 48 wt.% (Example 7), the powder composition has a high sensitivity to mechanical stress and electrified, estimated minimum ignition energy.

It was experimentally established that the properties of the proposed powder composition shown in the table are almost the same regardless of the chemical composition of the BRTT granules; input instrumentation oil having a temperature of freezing ^(-60 ° C), prevents smerzaemost powder composition and provides it with satisfactory flowability at low temperatures.

 Thus, the selected components and their ratio provide the required level of characteristics for safety, reliability and manufacturability of the powder composition.

 The manufacture of the proposed powder composition is carried out according to the following scheme: grinding BRTT into granules commensurate with the grains of pyroxylin powder; mixing granules BRTT, grains of pyroxylin gunpowder with instrumental oil; capping.

 Clogging of dispensers and conveying lines is not observed.

 Wells are charged without complications, there were no freezes and redistribution of the components of the proposed powder composition.

 More than 20 tons of powder composition were manufactured and tested in the conditions of Transvzryvprom quarries using BRTT granules of compositions I, II, III. No failures were recorded.

Claims (1)

1. POWDER COMPOSITION, including granular pyroxylin powder, containing, wt.%:
Alcohol-ether mixture - 1.0 - 2.5
Diphenylamine - 1 - 2
Water - 0.5 - 1.5
Pyroxylin - Else
characterized in that, in order to increase efficiency by reducing sensitivity to mechanical stress and increasing the critical detonation diameter to 90 - 120 mm, it additionally contains instrumental oil and granules of ballistic solid rocket fuel in the following ratio of components, wt.%:
Ballistic solid propellant pellets - 48 - 74
Instrument Oil - 1 - 2
Granular pyroxylin powder of the indicated composition - Else
2. The composition according to claim 1, characterized in that the granules of ballistic solid rocket fuel contain ballistic solid rocket fuel based on nitroglycerin or a mixture of nitroglycerin with diethylene glycol dinitrate.

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