RU2106330C1 - Non-corroding composition - Google Patents

Abstract

FIELD: for fulminating caps of cartridges of small arms and shotguns. SUBSTANCE: mechanical mixture comprises tetrazene, lead trinitroresorcinate, barium nitrate, lead dioxide, antimony trisulphide and industrial carbon as addition agent that enhances inflammation power. EFFECT: improved properties of the composition. 1 tbl

Description

 The invention relates to the field of percussion compositions for capsules igniters cartridges of small arms and hunting weapons and may find application in capsules igniters for military purposes.

 The impact composition in the cartridge of small arms should be sufficiently sensitive to the impact of the striker and give a beam of fire, which has the necessary igniting ability, ensuring reliable ignition of the powder charge in the sleeve with obtaining the required ballistic characteristics of the cartridge as a whole. The above requirements for impact compounds are realized through the use of highly explosive initiating explosives, active chlorine-containing oxidizing agents and combustible substances, which, when burned, form solid particles that increase the ignition effect of the composition. For example, well-known formulations of explosive percussion compositions for small arms contain explosive mercury, potassium chlorate (barlet salt), and trisulfur antimony (antimony) as fuel. The disadvantage of explosive compositions is that when fired, the products of combustion, due to the presence of chlorine-containing compounds in them, have a corrosive effect on the inner surface of the barrel bore and thereby reduce the life of the weapon. In addition, the pure release of metallic mercury during the combustion of the impact composition has a negative impact on the ecology of the environment.

 The corrosive effect of the combustion products is eliminated in the known non-rusting shock compositions by using barium nitrate instead of potassium chlorate as an oxidizing agent, while the replacement of explosive mercury with lead and tetrazene trinitroresorcinol, which, however, leads to a decrease in the ignitability of these compounds compared to explosive, in which the presence of heated to The high temperature particles of metallic mercury provide a high flammability. Therefore, in order to increase the ignitability, in the overwhelming majority of formulations of non-rusting compositions, metals, in particular aluminum, zirconium or alloys, which during their combustion significantly increase the temperature of the products of combustion of the impact composition, are used as an independent fuel or additive to the main composition. A significant drawback of the given formulations of compositions based on metallic fuels or alloys is the strong erosive effect of their combustion products containing highly solid oxides on the inner surface of the bore. For this reason, a non-rusting composition based on barium nitrate and trisulfide antimony, the combustion products of which have less erosive effect on the barrel than compositions containing metallic fuels or alloys, was selected as the prototype. However, this composition has a lower flammability than explosive compounds based on potassium chlorate. This is due to the increased difficulty in the decomposition of barium nitrate compared to potassium chlorate, and also because mercury and antimony oxide, which are at the combustion temperature of the composition, have a significant difference in densities at the same volumes, therefore, the amount of heat transferred to the powder charge by mercury than antimony oxide.

 The technical problem is to improve the formulation of non-rusting composition in order to increase its ignitory ability while maintaining sensitivity as in explosive compounds.

 The problem is solved in that a non-rusting composition consisting of a mechanical mixture of initiating explosives of lead and tetrazene trinitroresorcinates, barium nitrate oxidizers and lead dioxide, combustible antimony is added in the amount of 0.1 - 0.5% in excess of 100 carbon black, which is a product of thermo-oxidizing decomposition of hydrocarbons in the gas phase.

 The essence of the invention is as follows. Particles of carbon black do not undergo phase transformations during combustion, i.e. transition from solid to liquid and vapor, in connection with which there is no heat loss for these transitions. Possessing a low auto-ignition temperature, solid particles of carbon black accumulate in themselves and, due to the creation of active centers with high burning properties on the surface of the powder charge, transfer a large amount of heat to it than antimony oxide, which is in the vapor state during combustion of the shock composition.

 This circumstance made it possible to ensure reliable ignition of the powder charge in the cartridge case without using metals or alloys as fuel, thereby eliminating the erosive effect of their oxides on the barrel of the weapon.

 The sensitivity of the considered non-rust composition is at the level of sensitivity of the explosive compounds based on potassium chlorate, which can be seen from the table, which shows comparative data on the sensitivity of the standard explosive composition, as well as the non-rust composition based on barium nitrate and antimony with the addition of carbon black.

 The proposed non-rust composition has passed industrial tests and is used in capsule igniters for cartridges of small arms and hunting weapons.

Claims (2)

 1. Non-rusting impact composition containing trisulfide antimony, barium nitrate, lead dioxide, tetrazene, lead trinitroresorcinate, characterized in that, in order to increase its flaming ability, carbon black is added in an amount of 0.1 - 0.5%. 2. The composition according to p. 1, characterized in that the percentage of components in the composition is within
Tetrazene - 0.5 - 4.0
Lead trinitroresorcinol - 20.5 - 27.5
Barium nitrate - 42 - 48
Lead dioxide - 3 - 7
Three Sulfur Antimony - 23 - 27
Technical carbon - 0.1 - 0.5i

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