RU2826053C1 - Non-rusting impact compound - Google Patents

Abstract

FIELD: pyrotechnics; weapons and ammunition.

SUBSTANCE: invention relates to pyrotechnic production, namely to production of non-rusting percussion compositions for primers-igniters for cartridges of civil and service weapons. Non-rusting impact composition contains lead trinitroresorcinate, tetrazene, lead dioxide, barium nitrate and antimony triple sulphide. Lead trinitroresorcinate is contained in the composition in the form of colloidal gel-like lead trinitroresorcinate. Additionally, the composition contains methylcellulose. Components are in the following ratio, wt.%: lead trinitroresorcinate (TNRS) 35–45; tetrazene 1–5; barium nitrate 28–42; lead dioxide 1–9; three-sulfur antimony 13–21; methylcellulose 0.2–0.6 over 100.

EFFECT: enabling increase in the igniting ability of the non-rusting impact composition, reduction of corrosive action of combustion products of the composition on the barrel of the weapon, reduction of hazard of production processes.

1 cl, 2 tbl

Description

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

The non-corrosive percussion composition in the primer of the cartridge must be sensitive to the striker impact, have the necessary power to ensure reliable ignition of the powder charge in the cartridge case, and not cause a breach of the hermetic integrity of the primer, which ensures the proper level of reliable and safe use.

Currently, non-corrosive percussion compositions are widely used, where lead trinitroresorcinate and tetrazene are used as initiators, barium nitrate and lead dioxide are used as oxidizers, and antimony trisulfide (antimony) is used as a fuel. The combustion products of the said non-corrosive percussion compositions do not contain highly toxic mercury compounds, but their flammability is reduced compared to fulminate ferrous compositions.

The following compositions are known from the prior art:

[1] Patent RU No. 2106330 with the content of components, wt. %:

Lead trinitroresorcinate - 20.5-27.5, tetrazene - 0.5-4.0, barium nitrate - 42-48, lead dioxide - 23-27, antimony trisulfide - 23-27, technical carbon - 0.1-0.5.

The disadvantage of this composition is its low power, which in some cases leads to protracted shots due to the slow combustion of the powder charge in the cartridge case.

[2] Patent RU No. 2296733 with the content of components, wt. %:

Lead trinitroresorcinate - 16-20, tetrazene - 1.5-2.0, barium nitrate - 20-24, TEHN - 6-10, calcium silicide - 49-54.

The introduction of tetranitrate pentaerythritol (PETN) and calcium silicide helps to increase the temperature of the combustion products of the non-rusting impact composition. The disadvantage of this composition is the erosive effect of the combustion products on the barrel of the weapon.

At present, developers of initiating means are faced with the requirement not only to develop reliable non-corrosive percussion compositions at the level of previously used fulminate compositions for primers, which ensure the stability of the required ballistic characteristics of small arms cartridges, but also to improve the safety of their production.

The use of crystalline lead trinitroresorcinate (TNRS) for the production of non-corrosive percussion compositions and loading of primers with them is extremely dangerous due to high sensitivity to initial impulses (impact, friction, heating, etc.), and requires a set of expensive measures to ensure the safety of this production to eliminate accidents in buildings, structures, equipment in the production cycle, and injuries to personnel. Therefore, most foreign countries use wet technology, which uses percussion-igniting compositions in the form of a thick aqueous paste with subsequent drying of the loaded primer.

The use of this technology significantly increases safety at all stages of production, due to the lower sensitivity of moistened shock-ignition compositions, since with an increase in humidity, the sensitivity to impact and friction in compositions of this technology decreases from the first hazard class to medium and low hazard levels, from 13 to 18 hazard classes. This allows for a sharp reduction in the volume of infrastructure protection and an increase in the compactness of production.

A number of non-corrosive percussion compounds are known, which are used in a moistened form for loading primers:

[3] Composition with the content of components, wt. %:

Lead trinitroresorcinate (TIRS) - 40, tetrazene - 2, lead nitrate - 30, lead thiocyanate - 8, ground glass - 20.

This composition is intended mainly for loading rimfire cartridges, so it contains a lot of ground glass to increase its sensitivity to impact. When drying the loaded primer cap, a reaction occurs between thiocyanate and lead nitrate to form an insoluble mechanically strong double salt that binds the remaining components and the cartridge case together.

[4] Composition with the content of components, wt. %:

Lead trinitroresorcinate (TNRS) - 44.2, tetrazene - 3.3, glass - 25, barium nitrate - 20.4, lead hypophosphite - 6.8, gum arabic (gum arabic) - 0.3 over 100.

The disadvantage of compositions [3] and [4] is the low values of energy characteristics due to the high content of inert components and oxidizers, which do not release thermal energy during combustion of the non-rusting impact composition.

[5] Composition of FA-956 with the content of components, wt. %:

Lead trinitroresorcinate (TNRS) - 37, tetrazene - 4, barium nitrate - 32, antimony trisulfide - 15, TENH - 5, aluminum - 7, gum arabic (gum arabic) - 0.2 over 100.

The disadvantage of the given formula is the use of aluminum as an additive to the main fuel, which has a strong erosive effect of the combustion products of the composition on the surface of the gun barrel, and the presence of gum arabic - a binder of natural origin, which is susceptible to fungal infection, which reduces the guaranteed shelf life of non-corrosive percussion compositions and, accordingly, primers.

Composition [5] FA-956 was chosen as a prototype.

The peculiarity of the prototype composition is that the hardening during drying of the composition occurs due to its pasty structure, formed by a polysaccharide of plant origin - gum arabic.

The technical problem of the applicant, to the solution of which the proposed invention is aimed, is the development of a non-corrosive striking composition not only possessing high flammability when functioning at a temperature of minus 50°C, and low erosive effect on the surface of the gun barrel, but also allowing to reduce the danger of production processes.

The stated problem is solved due to the fact that in the proposed non-corrosive impact composition containing lead trinitroresorcinate and tetrazene as initiators, barium nitrate and lead dioxide as oxidizers, antimony trisulfide (antimony) as a fuel, instead of crystalline lead trinitroresorcinate, colloidal gel-like lead trinitroresorcinate is introduced, and methylcellulose is introduced as a binder, with the following percentage ratio of components, wt. %:

Lead trinitroresorcinate (TNRS) 35-45 Tetrazene 1-5 Barium nitrate 28-42 Lead dioxide 1-9 Antimony trisulfide 13-21 Methylcellulose 0.2-0.6 over 100

The proposed composition was manufactured by mechanically mixing in factory conditions on an industrial mixer first the wet components - colloidal gel-like lead trinitroresorcinate, tetrazene, methylcellulose, and then adding the dry components of the composition - barium nitrate, lead dioxide and antimony trisulfide.

Colloidal gel-like lead trinitroresorcinate, manufactured in accordance with patent No. 2554649 [6], was developed for wet technology of loading initiation means, significantly surpassing the technology of loading with dry shock-ignition compositions in terms of reliability and safety.

As a binder, instead of the plant raw material gum arabic, the industrially synthesized water-soluble polymer methylcellulose is used. The resistance of methylcellulose to fungus allows to increase the guaranteed shelf life of the non-rusting impact composition and primers.

The introduction of a binder in quantities determined by the stated limits is a sufficient condition for obtaining the required technological effect associated with the strength of the dried composition and adhesion to the cap of the primer-igniter.

During the development of the wet technology for the production of a non-corrosive impact composition, together with the use of methylcellulose, the optimal ratios of the content of the composition components were also worked out, allowing to obtain a composition with high flammability and low erosive effect on the surface of the gun barrel.

The technical result of the proposed invention consists in increasing the flammability of the non-corrosive impact composition, reducing the corrosive effect of the combustion products of the composition on the barrel of the weapon, and reducing the danger of production processes.

When searching patent and scientific and technical sources, no compositions identical to the proposed composition were found.

To conduct comparative tests, primers were manufactured with non-corrosive impact compositions [4], [5] and the proposed non-corrosive impact composition, which had average and boundary values from the proposed component ratios.

A comparison of the compositions by impact sensitivity is given in the Table.

The sensitivity of the composition [4] is 100% of the capsules are triggered

- igniters only when a load weighing 0.250±0.001 kg falls on them from a height of 220 mm, which indicates its insufficient power.

The sensitivity of the composition [5] is 100% of the capsules are triggered

- igniters when a load weighing 0.250±0.001 kg falls on them from heights of 180 - 220 mm. However, due to the high brisance of tetranitrate taerythritol, there was a case of destruction of the igniter cap when the load fell from a height of 220 mm.

The sensitivity of the proposed non-corrosive impact composition with design options 1, 2, 3 is 100%) of the detonation of the primer caps when a load weighing 0.250±0.001 kg falls on them from heights of 180-220 mm.

An additional characteristic of the effectiveness of the non-corrosive impact composition is 100% operation of the primers at a temperature of minus 50°C (Table 2).

The sensitivity of the composition [4] is 90% of the primer-igniters at a temperature of minus 50°C. The insufficient power of this composition leads to protracted shots due to the slow combustion of the powder charge in the cartridge case.

The sensitivity of the composition [5] is 100% of the detonation of the primer caps at a temperature of minus 50°C.

During testing of primers-igniters equipped with the proposed non-corrosive shock-igniting composition with design options 1, 2, 3, test results were obtained with 100% failure-free operation at a temperature of minus 50°C.

Changing the percentage ratio of the components of the composition beyond the proposed limits resulted in unstable ballistic characteristics of the shots.

The non-corrosive impact-igniting composition proposed by the authors has undergone field tests in standard small arms cartridges, which confirms the solution to the technical problem and allows us to consider the proposed technical solution as corresponding to the invention criteria of "industrial applicability" and "novelty".

Bibliographic data:

1. Patent of the Russian Federation No. 2106330.

2. Patent of the Russian Federation No. 2296733.

3. US Patent No. 1905795.

4. Encyclopaedia of Explosives and Related Items, Basil T. Fedoroff. V 8, p. 373-378, 1978.

5. Handbook of explosives, gunpowder and pyrotechnic compositions. [Electronic resource] // Pyrotechnic reference. - 2012. - No. 6-e. - Electronic, printed version. publ. - URL: http://ancient.hydro.nsc.ru/chem/doc/pirosprawka2012.pdf.

6. Patent of the Russian Federation No. 2554649.

Claims (2)

A non-rusting impact composition containing lead trinitroresorcinate, tetrazene, lead dioxide, barium nitrate, antimony trisulfide, characterized in that it contains lead trinitroresorcinate in the form of a colloidal gel-like lead trinitroresorcinate and methylcellulose in the following ratio of components, wt. %: Lead trinitroresorcinate (TNRS) 35-45 Tetrazene 1-5 Barium nitrate 28-42 Lead dioxide 1-9 Antimony trisulfide 13-21 Methylcellulose 0.2-0.6 over 100