RU2783293C1 - Non-mercuric percussion charge - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: invention relates to the field of pyrotechnic production, namely, to the production of non-mercuric percussion charges for percussion caps for cartridges of civil and service weapons. Non-mercuric percussion charge contains lead trinitroresorcinate, tetrazene, barium nitrate, lead dioxide, and silicon. The components are present in the composition in the following ratio, wt.%: lead trinitroresorcinate (lead styphnate) 38 to 42, tetrazene 1 to 3, barium nitrate (Ba(NO₃)₂) 40 to 44, lead dioxide (PbO₂) 3 to 5, silicon (Si) 10 to 14.

EFFECT: increase in the ignition capacity of the non-mercuric percussion charge and reduction in the corrosive action of the combustion products of the composition on the bore of the weapon.

1 cl, 1 tbl

Description

The invention relates to the field of pyrotechnical production, namely the production of non-corrosive percussion compositions for primers - igniters for cartridges of civil and service weapons.

The non-rusting impact composition in the primer-igniter of the cartridge must be sensitive to the impact of the striker, have the necessary power to ensure trouble-free ignition of the powder charge in the cartridge case, not cause a violation of the hermetic integrity of the primer-igniter (penetration of the bottom of the primer when fired), which ensures the proper level of safe use , as well as not cause corrosion of the barrel of the weapon by the decay products of the components of the composition.

A non-corrosive shock composition is known [1], which uses lead trinitroresorcinate and tetrazene as initiators, barium nitrate and lead dioxide as oxidizing agents, antimony trisulphide (antimonium) and aluminum as fuel and metal fuel in the following percentage ratio of components, wt .%:

TNRS 35.0±3 tetrazene 3.0±2 Ba(NO ₃ ) ₂ 42±3 _PbO2 5±2.0 antimony 7.0±3 Al 3±3.0

The disadvantage of this non-rusting impact composition is that the use of a metal additive of Al powder as an additive to the main fuel has a strong erosive effect on the surface of the bore due to the high combustion temperature and the formation of solid particles of metal oxides.

A non-corrosive shock composition is known [2], which uses lead trinitroresorcinate and tetrazene as initiators, potassium monosubstituted styphnate as a pseudo initiator, barium nitrate as an oxidizing agent, antimony trisulphide (antimonium) as a fuel in the following percentage ratio of components, wt.%:

TNRS 32-38 Tetrazen 2-12 C ₆ H ₂ N ₃ O ₈ K ₁ 1-7 Ba(NO ₃ ) ₂ 33-45 antimony 12-18

This composition is used in primers - igniters for cartridges of civil and service weapons. The disadvantage of this non-rusting impact composition is insufficient power, as a result of which stable ignition of the charge of gunpowder of a small arms cartridge is not ensured, which leads to an increase in the consumption of gunpowder in cartridges.

The closest technical solution adopted for the prototype is a non-rusting impact composition [3], which uses lead trinitroresorcinate and tetrazene as initiators, barium nitrate and lead dioxide as oxidizing agents, antimony trisulphide (antimonium) and calcium silicide (silicocalcium) - as a fuel and metal fuel, with the following percentage of components, wt.%:

TNRS 38 tetrazene 2.0 Ba(NO ₃ ) ₂ 39 _PbO2 5 antimony 5.0 calcium silicide eleven

The disadvantage of this non-rusting shock composition is its increased erosive activity in relation to the weapon barrel.

The technical task of the applicant, to which the proposed invention is directed, is the development of a non-rusting impact composition with increased ignitability to ensure stable ballistic characteristics of small cartridges and, at the same time, to avoid the corrosive effect of combustion products of the composition on the bore of the weapon.

The problem is solved due to the fact that in the proposed non-rusting impact composition containing lead trinitroresorcinate, tetrazene, barium nitrate, lead dioxide, silicon is introduced as a fuel at the following percentage ratio of components, wt.%:

TNRS 38-42 Tetrazen 1-3 Ba(NO ₃ ) ₂ 40-44 _PbO2 3-5 Si 10-14

The technical result lies in the fact that silicon as a fuel is used for the first time in the proposed combination with the main initiators and oxidizing agents for the preparation of a non-rusting shock composition with increased energy parameters. When conducting a search on patent and scientific and technical sources, compositions identical to the proposed composition were not identified.

To conduct comparative tests, regular non-corrosive impact compositions [1], [2], a prototype composition [3] and the proposed non-corrosive impact composition were made.

Primers - igniters equipped with standard compositions [1] and [2] did not provide effective use in cartridges 12/70 of the FetteR trademark with a shot shell mass of 24, 28, 32, 34, 36 g. To ensure the stability of the ignition of gunpowder in the cartridge case it was required to increase the consumption of gunpowder by 0.1-0.13 g.

The composition was also tested - a prototype [3], which, during its combustion, gives a greater amount of gaseous products in comparison with non-corrosive shock compositions [1], [2]. However, in isolated cases, destruction of the igniter capsule and the release of combustion products in the opposite direction took place, i.e. into the breech.

Since the dimensions of the primer - igniter are related to the dimensions of the cartridge case, to ensure the stability of the ignition of gunpowders in the cartridge case, it was necessary to change the formulation of the composition by introducing a component into the recipe that, without reducing the sensitivity of the primer - igniter, would increase its power due to the increase in gas and condensed phases combustion products.

Experimentally, silicon was introduced as a fuel into a non-rusting impact composition containing lead trinitroresorcinate, tetrazene, barium nitrate, and lead dioxide.

Together with the addition of silicon, the optimal ratios of the content of the components of the composition were worked out, which made it possible to stably ignite gunpowder in cartridge cases 12/70 of the FetteR trademark.

A positive result was also obtained, which consists in the fact that the use of silicon as a fuel made it possible to ensure stable ignition of gunpowder in the cartridge case 12/70 of the FetteR trademark when the proposed non-corrosive impact composition is weighed in the primer - igniter 0.0610 ± 0.0025 g, in while primers - igniters, equipped with standard non-rusting impact compositions [1], [2], were made with a weight of 0.0635 ± 0.0025 g.

The change in the quantitative composition of the components of the composition beyond the proposed limits led to the receipt of unstable ballistic characteristics of the shots.

The basic parameters of the thermodynamics of combustion of non-rusting shock compositions, which characterize the power of the composition, are:

- combustion temperature of the composition;

- specific volume of the gas phase of the combustion products of the composition;

- mass fraction of the condensed phase of the combustion products of the composition.

The results of comparing the thermodynamic characteristics of the compositions are given in Table 1.

Table 1 shows that the primer - igniter equipped with the proposed composition is more powerful than primers - igniters equipped with compositions [1], [2], [3], and the combustion temperature acting on the bottom of the primer - igniter is lower compared to the prototype, which is a positive factor.

The non-corrosive impact composition proposed by the authors has passed industrial tests and has been used in cartridges 12/70 of the FetteR trademark, which confirms the solution of the technical problem posed and allows us to consider the proposed technical solution as meeting the criteria of the invention "industrial applicability" and "novelty".

Sources of information

1. Impact non-rusting composition TU 7513104-135-89 (Source of information 1 in patent RU 2157357 dated 05/25/1999).

2. Patent RU 2157357 dated May 25, 1999.

3. Encyclopaedia of Explosives and Related Items, Basil T. Fedoroff. v. 8, p. 380, 1978.

Claims (2)

Non-corrosive shock composition containing lead trinitroresorcinate, tetrazene, barium nitrate, lead dioxide, characterized in that it contains silicon in the following ratio, wt.%: TNRS 38-42 Tetrazen 1-3 Ba(NO ₃ ) ₂ 40-44 _PbO2 3-5 Si 10-14