RU2472763C1 - Aerosol-generating composition for creation of smoke masking curtains - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: composition includes 60-70 wt % of red phosphorus, 17-20 wt % of ammonium nitrate in the form of an aqueous solution, 4-7 wt % of powder of aluminium-magnesium alloy with dispersion of not more than 50 mcm, carbamide as a retarder in the amount of 7-10 wt % and a process additive - liquid chlorinated paraffin wax in the amount of 2-3 wt %. And the aqueous solution of the ammonium nitrate contains the following components, in wt %: ammonium nitrate or potassium nitrate 68-74, water 13-14 and sodium sulfate 13-18. The technical solution provides for higher yield of the amount of aerosol disperse phase and gaseous products of combustion and improves dispersion of soot particles providing for stability of a smoke cloud and covering ability of a created curtain.

EFFECT: higher efficiency of smoke generation makes it possible to reduce smoke pot dimensions, make it compact and convenient for service use.

2 cl

Description

The invention relates to pyrotechnic compositions for the formation of smoke masking curtains.

The level of this technical field is characterized by the pyrotechnic aerosol forming composition described in patent RU 2083539, C06D 3/00, C06B 39/06, 1997, including phosphorus red, alkali metal nitrate, metallic fuel and polysulfide binder in an optimized mass ratio.

A feature of this composition is the use of red phosphorus with a powder particle size of 100-1000 μm, as a metal fuel - aluminum-magnesium alloy powder with a specific surface of at least 1000 cm ² / g, as nitric metal nitrate - sodium nitrate with a specific surface of at least 400 cm ² / g, as a polysulfide binder, thiocol and optionally epoxy as a binder.

Additionally, the following are introduced into the granular composition: curing additives of manganese (IV) oxide and hexamethylenetetramine; to accelerate the polymerization of dimethylguanidine; technological additive of silicon dioxide with a specific surface area of at least 300 m ² / g (Aerosil), which increases the flowability of the composition.

The interaction of the components of the thermal base generates a large amount of heat spent on the sublimation of red phosphorus, the main aerosol forming component, which increases the efficiency of the formed masking curtain.

The disadvantage of the described pyrotechnic composition, highly efficient in smoke output, is the technical unsuitability for mass production due to the multicomponent and technological difficulties of industrial implementation in the given narrow ranges of content of structural components.

More technologically advanced and simpler is the pyrotechnic composition according to the patent US 3650856, C06D 3/00, 1974, including, wt.%: 31-47 red phosphorus, 18-32 alkali metal nitrate, 4-5 magnesium powder as a metal fuel and 25-35 polysulfide binder.

The main disadvantage of this pyrotechnic composition, of which 1 / 3-1 / 4 weighs a technological binder, is its low masking ability due to the limited content of the main aerosol forming component - red phosphorus, and the low combustion temperature in the condensed phase (700 ° C), which determined by the positive oxygen balance of the thermal base: alkali metal nitrate - metallic fuel.

The composition proposed is the pyrotechnic aerosol-forming composition for the formation of a smoke masking curtain according to patent RU 2387627, C06D 3/00, 2008, which contains red phosphorus, oxidizing agent and metallic fuel as the closest in technical essence and number of coinciding features of an analog to the proposed composition.

A feature of the known composition is that it contains red phosphorus powder with a particle size of 30-80 microns, phlegmatized with an aqueous solution of tin dichloride, an oxidizing agent in the form of an aqueous solution of ammonium nitrate, and as a metal fuel, an aluminum-magnesium alloy powder with a particle size of 50-100 microns.

Known pyrotechnic aerosol forming composition contains components in the following ratio, wt.%:

phosphorus red 54-68 ammonium nitrate 15-30 aluminum powder magnesium alloy 6-15 tin chloride 0.7-1.3 water 4-6

Additionally, sodium sulfate in an amount of 3-5 wt.% In excess of 100 wt.% Is added to a commercially available composition to bind free water to crystalline hydrate.

The technical advantage of the described composition lies in its manufacturability, since the composition prepared in the general mixer is discharged portionwise directly into the equipped product, excluding sinking, intermediate unloading onto trays, granulation and drying, which significantly reduced the technological cycle of safe manufacturing of pyrotechnic composition using water technology.

When this pyrotechnic composition is burned, an aerosol is generated with a high content of the dispersed phase, which provides a high masking ability of the smoke screen.

The processing of red phosphorus powder with an aqueous solution of tin dichloride, the mass of which is 1.3-1.9 wt.% Of the mass of phosphorus, carried out by joint mixing, provides the formation of particles of phosphorus film coating that performs anti-pyrogenic functions and is a technological phlegmatizer during further processing without protective atmosphere.

Ammonium nitrate is introduced in the form of an aqueous solution, which significantly reduces the viscosity of the composition in the form of a suspension, facilitating its safe uniform mixing.

The size of the crystals of ammonium nitrate is an order of magnitude larger than the particle size of the components of the composition, which makes it difficult to obtain a homogeneous mixture when used in powder form.

Ammonium nitrate has a high solubility in water at a temperature of 70-80 ° C in a mass fraction of about 5-6 times the water content in the solution.

The use of an aqueous solution of ammonium nitrate in the manufacture of the known pyrotechnic composition ensured uniform distribution of the oxidizing agent on the highly developed surface of red phosphorus particles and, when interacting with active metal fuel, increases the linear burning rate of the composition (1.5-2 mm / s), which reduces the time of aerosol formation and formulation smoke masking curtain.

Aluminum-magnesium alloy powder serves as a high-energy metallic fuel, part of which is oxidized by process water and forms a component of hydroreactive fuel, and together with ammonium nitrate ensures its complete combustion and maximum yield of the dispersed phase of the aerosol.

The use of aluminum-magnesium alloy as a metal combustible powder with particle sizes in the range of 50-100 μm, comparable with the fractionation of red phosphorus, ensures uniformity of the mixture during mechanical mixing of the components.

In mass production, when a large mass of the composition is prepared at a time, in order to exclude the possible exudation of water from the prepared mass of the composition, which is discharged directly into the equipped items without drying, sodium sulfate is additionally added to the composition. In this case, free water binds due to the formation of crystalline hydrate.

A disadvantage of the known pyrotechnic composition is the presence in the generated aerosol of a masking curtain, the setting of which is carried out in its own positions, of a highly toxic substance - tin dichloride, which limits its practical target use.

The problem to which the present invention is directed, is to improve the well-known pyrotechnic aerosol-forming composition for the formation of smoke masking curtains, safe in production and use, with higher destination.

The required technical result is achieved by the fact that the known aerosol-forming composition for the formation of smoke masking curtains, including red phosphorus, ammonium nitrate in the form of an aqueous solution, aluminum-magnesium alloy powder and phlegmatizer, according to the invention contains an aluminum-magnesium alloy powder with a dispersion of not higher than 50 microns, as a phlegmatizer, urea and, in addition, a technological additive - liquid chloroparaffin, in the following ratio of components, wt.%:

phosphorus red 60-70 ammonium nitrate 17-20 aluminum-magnesium alloy powder 4-7 urea 7-10 liquid chloroparaffin 2-3

Another feature of the composition according to the invention is that an aqueous solution of ammonium nitrate includes sodium sulfate with a content of components, wt.%:

ammonium nitrate 68-74 water 13-14 sodium sulfate 13-18

Distinctive features provided an increase in the amount of the dispersed phase of the generated aerosol and gaseous combustion products, improving their release into the atmosphere, contributing to the dispersion of soot particles, ensuring the stability of the smoke cloud and the covering power of the formed curtain.

The achieved increase in the efficiency of smoke generation allows to reduce the dimensions of a compact pyrotechnic checker, convenient in official use.

The composition according to the invention is technologically advanced in mass production.

The content of red phosphorus in the pyrotechnic composition according to the invention is optimized in the range of 60-70 wt.%, Which is comparable with the content of the main aerosol in the analogue.

The use of aluminum-magnesium alloy with a particle size of up to 50 μm as a metal combustible powder is aimed at more active combustion of the composition with an increase in the combustion surface of finely divided fuel. This, in turn, made it possible to reduce the mass fraction of the aluminum-magnesium alloy powder in the composition by 1.5-2 times in favor of other components of the aerosol-forming composition.

The powder of aluminum-magnesium alloy is a complex metal fuel, in which aluminum activates the combustion of the composition, and magnesium transfers the structural chlorine-containing components to aerosol, increasing smoke formation. At the same time, the negative qualities inherent in metals during separate use are leveled in the alloy.

When the content of aluminum-magnesium alloy in the pyrotechnic composition is less than 4 wt.%, A temperature develops which is insufficient for the full use of red phosphorus for its intended purpose, which reduces the optical density of the smoke curtain.

When the content of the aluminum-magnesium alloy in the pyrotechnic composition is more than 7 wt.%, Flame burning occurs with the formation of a condensed phase and slags, as a result of which the required amount of smoke is not achieved for setting an effective masking curtain, and aerosol formation time is reduced.

The combination of urea with chlorine paraffin liquid brand XP-470 reduces flame formation while stabilizing the combustion of the composition, eliminating the arched effect of smoke formation.

Urea as an organic fuel serves as an activator of the combustion of the composition, is a flame arrester, which increases the intensity of smoke formation and increases the optical density of the formed aerosol cloud.

Chloroparaffin liquid is a technological additive that eliminates the dusting of the composition when mixing the components and additionally increases smoke formation, forming a dispersed phase due to the chlorination of metals during combustion of the composition, increasing the masking ability of the generated aerosol.

When the urea content in the pyrotechnic composition is less than 7 wt.% And liquid chloroparaffin less than 2 wt.%, The phlegmatization of red phosphorus powder particles is not guaranteed to be guaranteed, the sensitivity of the composition to mechanical stress is increased, which limits the technological capabilities of mass production and the conditions of official handling of the composition.

When the urea content in the pyrotechnic composition is more than 10 wt.% And liquid chloroparaffin more than 3 wt.%, The technological properties are not significantly improved.

When the content of ammonium nitrate in the pyrotechnic composition is less than 17 wt.%, The burning rate sharply decreases, as a result of which the intensity of smoke formation decreases.

When the content of ammonium nitrate in the pyrotechnic composition is more than 20 wt.%, The specific aerosol generation efficiency decreases

Sodium sulfate provides the binding of free moisture in the pyrotechnic composition with the formation of crystalline hydrate of the General formula Na ₂ SO ₄ · nH ₂ O (n≥10), which increases the manufacturability of the composition.

Sodium sulfate is introduced into an aqueous solution of ammonium nitrate in the ratio of components calculated according to the mathematical model of the design of the experiment, which are, wt.%:

ammonium nitrate 68-74 water 13-14 sodium sulfate 13-18

The optimized ratio of the components of this technological solution ensures that, with uniform safe mixing, the components of a homogeneous viscous fluid composition of a pyrotechnic composition, which contributes to high-speed burning of the functional composition (1.5-2 mm / s) and fast efficient setting of the masking curtain from the generated aerosol with a duration of at least 5 minutes .

In this case, the exudation of excess moisture from the mass of industrially prepared mass of the composition during technological operations and in the finished product is excluded.

Therefore, each essential feature is necessary, and their combination in an optimized mass ratio is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new effect of the sum of the attributes.

Experimentally prepared and tested prototypes of charges from the proposed pyrotechnic composition, the components of which were introduced at the borders of the claimed ranges, within the ranges and beyond.

Achieved during the combustion of prototypes of charges from compositions whose components correspond to the declared ranges of their mass content, the actual indicators of the rate of smoke formation, optical density of the masking curtain and the time of its existence turned out to be objectively better, compared with the compositions of known analogues.

Claims (2)

1. Aerosol-forming composition for the formation of smoke masking curtains, including red phosphorus, ammonium nitrate in the form of an aqueous solution, aluminum-magnesium alloy powder and phlegmatizer, characterized in that it contains aluminum-magnesium alloy powder with a particle size of not higher than 50 microns, as a phlegmatizer - urea and, in addition, technological additive - liquid chloroparaffin in the following ratio of components, wt.%:
phosphorus red 60-70 ammonium nitrate 17-20 aluminum-magnesium alloy powder 4-7 urea 7-10 liquid chloroparaffin 2-3 2. The composition according to claim 1, characterized in that the aqueous solution of ammonium nitrate includes sodium sulfate with a content of components, wt.%:
ammonium nitrate 68-74 water 13-14 sodium sulfate 13-18