RU2369591C9 - Aerosol-forming pyrotechnic composition - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: pyrotechnic composition for arrangement of aerosol masking curtain and false purpose contains phosphor-containing granules, a thermal mix of aluminium-magnesium powder and sodium nitrate, thiocol as binder, manganese oxide (IV) as stabiliser, dibutylphthalate as polymer component and aerosil or graphite as technological additive. Phosphor-containing granules consist of 87-92 wt % of red phosphorus, retarded by granules of 8-10 wt % of fluoroplast and 0.5-2.5 wt % of graphite distributed in volume.

EFFECT: invention provides for generation of aerosol as a source of electromagnetic radiation with wavelengths of visible and infra-red range.

1 tbl

Description

The invention relates to means for generating masking smoke screens, and more specifically to means for generating them - pyrotechnic compositions used as aerosol-forming equipment for munitions, during the combustion of which gaseous infrared substances are formed in the atmosphere, which imitate a working engine of military equipment as a false target.

The level of this technical field is characterized by smoke-forming compositions according to US Pat. Nos. 5,049,214, 4,704,966, 3,650,856, which, when burned, form a masking cloud of smoke containing red phosphorus, a thermal mixture of metallic fuel and an oxidizing agent, a polymer binder and processing aids.

The disadvantage of these smoke-forming compositions, the combustion of which occurs at a relatively low temperature of the condensed phase, is an unsatisfactory masking ability due to the low content of the main functional component, which determines a low aerosol yield.

The noted drawback is eliminated in the pyrotechnic composition according to the patent RU 2083539, С06D 3/00, С06В 39/06, 1997, which, according to the technical nature and the number of matching features, is selected as the closest analogue of the proposed smoke pyrotechnic composition.

The known pyrotechnic composition includes red granulated phosphorus, a thermal mixture of metallic fuel (aluminum-magnesium alloy powder) and an oxidizing agent (sodium nitrate), a polysulfide binder (thiocol), an epoxy resin binder, curing additives of manganese (IV) oxide and hexamethylenetetramine, an accelerator, an accelerator diphenylguanidine and technological additive Aerosil (silicon dioxide with a specific surface area of at least 300 m ² / g) in the following ratio of components, wt.%:

phosphorus red 61-69 aluminum-magnesium alloy 11-17 sodium nitrate 8-20 thiocol 3.2-4.3 epoxy resin 1.4-1.9 manganese (IV) oxide 0.4-0.6 hexamethylenetetramine 0.1-0.3 diphenylguanidine 0.2-0.6

The optimized ratio and dispersion of the components contribute to the fact that when the composition is burned, first of all, the high-temperature thermal mixture of the powder of aluminum-magnesium alloy and sodium nitrate interacts with the release of a large amount of heat spent on the sublimation of phosphorus, that is, more efficient smoke generation, which increases the masking ability of the composition .

The use of red granular phosphorus in the pyrotechnic composition ensures the manufacturability and safety of the mixture preparation using industry standard standard equipment.

The masking ability due to smoke generation (the amount of the dispersed phase of the aerosol generated during the combustion of a unit mass of the pyrotechnic composition) increased by a factor of one and a half to two.

The disadvantages of the known multicomponent pyrotechnic composition are the technological complexity and the duration of manufacture of the product within the specified service characteristics, which limits serial unified production.

For the manufacture of the known composition there is no raw material base, since red granular phosphorus is not produced in Russia. Fine phosphorus red spontaneously ignites upon contact with air, which complicates its safe processing.

In addition, the ratio of the components of the thermal mixture in the composition is not optimized with a ballast excess of the oxidizing agent for maximum heat input in the dispersion of the smoke-forming component, which reduces the efficiency of aerosol formation and the masking ability of the pyrotechnic composition.

This disadvantage is aggravated by the uneven distribution of the thermal mixture in the composition during localized contact with red phosphorus, which is not completely sublimated, due to the insufficient mass content of thiocol.

However, the main drawback of the known composition is the lack of a raw material base, since red granular phosphorus is not produced in Russia. Fine phosphorus red spontaneously ignites upon contact with air, which complicates its safe processing.

Due to the fact that the pyrotechnic composition is designed to protect military equipment, it is necessary to have independent production for the industrial manufacture of aerosol-forming composition, equipment of pyrotechnic ammunition used to mask and covert movement of military equipment.

The problem to which the present invention is directed, is the creation of a universal, more effective in terms of basic action, technological in the serial production of aerosol-forming pyrotechnic composition based on red granular phosphorus.

The required technical result is achieved in that in the known smoke-forming pyrotechnic composition based on red granular phosphorus, including a thermal mixture of aluminum-magnesium powder and sodium nitrate, a binder is a thiokol, a stabilizer is manganese (IY) oxide, a polymer component and a technological additive is aerosil, which differs the fact that red phosphorus is phlegmatized by fluororubber and graphite distributed in the granule volume in the following ratio, wt.%: 87-92 red phosphorus, 8-10 fluororubber and 0.5-2.5 gra fit, dibutyl phthalate was used as the polymer component, and graphite was used alternatively as a technological additive, while the composition components are contained in the following ratio, wt.%:

phosphorus-containing granules 63-70 aluminum-magnesium alloy powder 15-19 sodium nitrate 8-10 thiocol 4,5-5,5 Manganese (IY) oxide 0.3-0.7 dibutyl phthalate 0.5-1.5 aerosil or graphite 0.5-1.5

Distinctive features ensured the expansion of technological capabilities of using an aerosol-forming composition for setting a masking curtain and false targets that simulate a heated engine of military equipment, which is achieved by generating into the atmosphere during dynamic combustion of equipment from it a solid phase of aerosol as a source of electromagnetic radiation with visible and infrared wavelengths range (0.4-14 microns), providing secretive movements and maneuvers of armored vehicles, as well as the formation of false targets for I am an enemy detection tool.

The introduction of the phlegmatizing components of fluororubber and graphite into the structure of pre-prepared red phosphorus granules increases its manufacturability in further processing, significantly reducing sensitivity to mechanical stresses, thereby ensuring safety in official handling, in the preparation of the pyrotechnic composition.

At the same time, fluororubber, being both an oxidizing agent and a fuel, additionally activates the combustion process of the composition, enhancing the energy effect of the thermal mixture. Due to additional contact with the active oxidizing agent - fluororubber, the dispersion of burning red phosphorus into the atmosphere increases, where it is oxidized with atmospheric oxygen, thereby increasing the masking effect of the smoke curtain and expanding the frequency spectrum of electromagnetic radiation generated by the solid phase of the aerosol.

This diversifies the interaction with electromagnetic radiation of detection and guidance means, distorting the reflected signals, which allows to expand the practical possibilities of using charges from the proposed pyrotechnic composition as a masking tool and a source of false targets that mimic the heated engine of military equipment. The masking ability of phosphorus aerosol consists of attenuation of electromagnetic radiation and the intrinsic luminosity of the aerosol cloud due to the veiling brightness.

When the red phosphorus content in the granules is less than 87 wt.%, The aerosol formation efficiency decreases, and the density of the masking smoke cloud decreases.

The pyrotechnic composition containing red granulated phosphorus of more than 92 wt.% Is characterized by poor flammability, unstable combustion, up to attenuation, and incomplete use of red phosphorus.

The introduction of red fluorine rubber and graphite into the structure of the prepared granules of phosphorus ensures its phlegmatization, that is, practical insensitivity to self-ignition in official circulation during technological processing.

The content of fluororubber in granules of less than 8 wt.% Is insufficient for the phlegmatization of red phosphorus to a safe level in further technological processing.

When the content of the viscous component of fluororubber is more than 10 wt.%, It makes the granulated mixture non-technological due to the long drying time by drying to remove the solvent (acetone).

The content in the granulated mixture of graphite of less than 0.5 wt.% Does not provide a decrease in the sensitivity of red phosphorus to ignition and physico-chemical influences, manufacturability is not significantly improved.

When the content of granular mixture of graphite is more than 2.5 wt.%, The flammability of the pyrotechnic composition decreases.

When the content of phlegmatized red phosphorus granules in the pyrotechnic smoke composition is less than 63 wt.%, The masking ability of the smoke cloud is unsatisfactory due to the lack of the main aerosol-forming component.

When the content of phlegmatized red phosphorus granules in the pyrotechnic composition is more than 70 wt.%, Unstable combustion occurs.

The content of metallic fuel in the pyrotechnic composition of less than 15 wt.% Is the reason for the incomplete use of red phosphorus for its intended purpose due to the lack of a thermal mixture for the development of the necessary temperature and burning rate, i.e. the pyrotechnic composition is not functional.

When the content of aluminum-magnesium alloy powder in the pyrotechnic composition is more than 19 wt.%, Accelerated combustion occurs, which reduces the aerosol yield, a lot of condensed phase and slags are formed; the combustion temperature is very high with a large torch area, which reduces masking ability and creates a fire hazard when used.

The selected range of sodium nitrate content in the thermal mixture ensures complete interaction with metal fuel in an optimized ratio, which gives stable active combustion, few slag residues with maximum dispersion of phosphorus oxides into the atmosphere to form a masking cloud.

The thiokol (binder) ensures the formation of a layer of a thermal mixture on phosphorus-containing granules modified with fluororubber with graphite, which activates the ignition of the pyrotechnic composition in the volume and its uniform stable combustion.

The increase in the mass of thiokol, in comparison with the prototype, provides a connection of the entire surface of phlegmagranized granules of red phosphorus with a thermal mixture, which contributes to the growth of the ignition dynamics of the composition and increases its burning time. In addition, thiokol increases the strength of charges pressed from a new smoke composition.

When the thiol content in the pyrotechnic composition is less than 4.5 wt.%, The surface of the phosphorus-containing granules does not uniformly contact the thermal composition, which leads to an unstable, uneven burning pattern and, therefore, reduces the masking ability of the pyrotechnic smoke charge.

When the thiol content in the pyrotechnic composition is more than 5.5 wt.%, The flame combustion temperature sharply increases, which reduces the aerosol removal and the density of the masking cloud.

With the introduction of manganese (IV) oxide less than 0.3 wt.% Significantly increases the technological curing time of the polymer component and does not provide stabilization of the composition.

When the content of manganese (IV) oxide is more than 0.7 wt.%, The slag residue increases and the efficiency of using aerosol-forming red phosphorus decreases.

Dibutyl phthalate, low viscosity liquid, is easily distributed over the volume of the pyrotechnic composition, further reducing dusting and without the use of accelerators, phlegmatizers and other components plasticizes thiocol.

When the content of dibutyl phthalate in the pyrotechnic smoke composition is less than 0.5 wt.%, A uniform distribution of the component in the composition and a decrease in the processing temperature of the composition at a given dynamics of thiol plasticization are not ensured.

With a dibutyl phthalate content of more than 1.5 wt.%, The pyrotechnic composition is not technologically advanced due to prolonged drying and increased rejects when charges are pressed from it due to the release of the oil component to the surface.

A technological additive (graphite or aerosil) provides flowability to the pyrotechnic composition, while graphite reduces sensitivity to mechanical stress and ignition, and aerosil improves flowability, excluding dusting of the composition, increases manufacturability, in particular, reduces the pressing force of the aerosol-forming charge from the pyrotechnic composition.

When the content of the technological additive in the pyrotechnic composition is more than 1.5 wt.%, The necessary technical characteristics are not achieved: the burning rate (graphite) decreases or the charge strength (aerosil) decreases.

When the content of graphite or aerosil is less than 0.5 wt.%, Technological improvements of the prepared and processed composition are not achieved.

The aerosol-forming pyrotechnic composition of the proposed quantitative content of the components is characterized by a wide range of electromagnetic radiation of a solid phase dispersed into the atmosphere in the optical and infrared wavelength spectra.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the stated technical problem is solved not by the sum of the effects, but by a new effect of the sum of the attributes.

The proposed smoke-forming pyrotechnic composition is made as follows.

Mixing the components of the proposed pyrotechnic composition is carried out on existing mixers of grades 35СВ, 6ЛСМ.

The quantitative content of the components of the composition was calculated according to the mathematical model of the design of the experiment and experimentally tested in laboratory and bench tests.

Preliminarily, granules of phlegmatized red phosphorus are formed, for which samples of powdered red phosphorus according to GOST 8655-75, a solution of fluororubber in acetone (SKF-32-25) according to OST V84-1967-77 and pyrotechnic graphite GOST 8295-73 are loaded into the mixer. Mixing is carried out for 10 minutes, after which the mixture is rubbed through a sieve with cells of 1.25-2.0 mm and dried with a layer on the trays until the volatile content of at least 0.6 wt.%.

The prepared granules of phlegmatized red phosphorus are loaded into the mixer together with liquid thiokol, NVB-2 according to GOST 12812-80 and dibutyl phthalate according to GOST 8728-88. Mix for 5-10 minutes.

Then add a sample of powder of aluminum-magnesium alloy grades PAM-4 or PAM-4P according to GOST 5593-78 and mix for 5-7 minutes.

After that, weighed samples of sodium nitrate A or B with a mass fraction of oxidizable substances of not more than 0.015% according to GOST 828-77, manganese (IV) oxide according to GOST 4470-79, aerosil A-380 according to GOST 14922-77 or graphite. Mixing is carried out for 10-25 minutes.

The last 5-15 minutes are allowed to interfere with blowing into the air mixing zone with a pressure of 0.2 MPa (2 kgf / cm ² ) to intensify the removal of volatiles and moisture.

The prepared mixture is dried by drying on trays for 2-4 hours to a moisture and volatile content of not more than 0.65 wt.%, After which it is packaged and packaged. Compressed from the proposed pyrotechnic composition, a charge of standard sizes (diameter 81 mm, length 220 mm, weight 1.3 kg) creates a smoke screen over a period of 3 s with a length of up to 15 m, a width of up to 10 m with a smoke formation time of 0.2-1.0 min, the spectral range of masking and interference action of which is 0.4-14 microns, which provides an imitation of a heated engine and is enough to carry out covert maneuvers of military equipment under cover of a dense smoke screen.

The proposed pyrotechnic composition is characterized by chemical resistance and compatibility of structural components, the physicochemical parameters of which are summarized in the table below.

Name of characteristics Characteristic Values Class and degree of relative hazard of manual work under friction 6 (high) Class and degree of relative hazard when exposed to impact 3 (high) Spark sensitivity Low TNT equivalent 0.05 Ignition temperature, ° С (during 5 s) 721 Burning rate, mm / s 0.9-1.0 Masking ability, m ² / g in the range (μm): 0.4-0.76 8-9 0.76-1.5 1.7-1.8 1,5-5,0 0.7-0.8 5.0-14.0 0.8-0.9 Heat resistance, ° С 270 Charge pressure, MPa 70-100

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a pyrotechnic specialist, showed that it is not known, and taking into account the possibility of practical serial production of a smoke-forming composition on existing equipment, we can conclude that the patentability criteria are met .

Claims (1)

Pyrotechnic composition for setting an aerosol masking curtain and a false target, including phosphorus-containing granules, a thermal mixture of aluminum-magnesium powder and sodium nitrate, a thiokol as a binder, manganese (IV) oxide as a stabilizer, a polymer component and a technological additive, characterized in that as phosphorus-containing granules, it contains granules consisting of 87-92 wt.% red phosphorus, phlegmatized with 8-10 wt.% fluororubber and 0.5-2.5 wt.% graphite distributed in the granule volume, as the dimethyl component - dibutyl phthalate, and as a processing aid - aerosil or graphite with the following components, wt.%:
phosphorus-containing granules 63-70 aluminum-magnesium alloy powder 15-19 sodium nitrate 8-10 thiocol 4,5-5,5 manganese (IV) oxide 0.3-0.7 dibutyl phthalate 0.5-1.5 aerosil or graphite 0.5-1.5