RU2369589C2 - Pyrotechnical smoke-generating composition - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: pyrotechnical smoke-generating composition comprises hexachloroethane, zinc oxide, aluminium powder and fluorine rubber as technological additive.

EFFECT: improved masking property of smoke-generating composition.

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Description

The invention relates to pyrotechnic compositions, during combustion of which an aerosol is generated, forming a smoke screen in air, used to set up a masking cloud.

The level of this technical field is characterized by pyrotechnic metal chloride compositions, which contain hexachloroethane, hexachlorobenzene as an oxidizing agent, magnesium, zinc, aluminum, calcium silicides, magnesium alloys, magnesium alloys with aluminum and functional additives in the form of zinc oxide, magnesium, aluminum for automatic control of the burning rate and smoke increase, as well as technological additives, such as phenol-formaldehyde, polyvinyl chloride or epoxy resin (see, for example, A.A.Shidlovsky th, Fundamentals of Pyrotechnics, Moscow: Mashinostroenie, 1973; I.V. Bystrov, Pyrotechnics, Oborongiz, 1954; US Patents Nos. 2939779, national class 149; 32374035 and 3625855 nats class CL 102-56; No. 3485171 national class 252; Germany No. 1091925, 1542020, class 78; France No. 2249590, F42B, 1975

In the patent of Germany 1542020, 78d 1/100 describes the formulation of the smoke-forming composition, including, wt.%: 40-60 hexachloroethane, 20-30 zinc, 2-10 zinc oxide and 1-10 aluminum. In US patent No. 3485171, CL. 102-56 describes a composition including (wt.%): 45.5 hexachloroethane, 47.5 zinc oxides and 7 granular aluminum.

The masking ability of these smoke-forming compositions in the visible region of the spectrum of optical radiation is in the region of 3.8-4.2 m ² / g, the burning rate is 1.0-2.8 mm / s, which is clearly not enough for effective visual protection of military equipment and weapons.

The disadvantages of these analogues are unstable combustion in a compacted state, as well as significant dusting when mixing dry components, which creates an explosion hazard in industrial production.

These compositions are low-tech, which makes it difficult to manufacture smoke-forming charges, the manufacture of which is not technically possible in mass production by pressing.

The use of these compounds is possible only in sealed ammunition designs due to the high hygroscopicity of zinc, which in practice limits serial production.

The noted disadvantages are eliminated in the pyrotechnic smoke-forming composition according to French patent No. 2249590, F42B 13/00, 1975, which contains (wt.%): 35-60 hexachloroethane, 10-35 zinc oxide, 3-25 metal fuel - calcium silicides, magnesium or aluminum and 3-20 technological additives - polyvinyl chloride.

The disadvantages of the described composition are the following:

- low masking ability due to the high burning rate of the composition due to the use of silicides (inorganic compounds of silicon and metal) as a fuel;

- high burning rate of the composition in the equipped product (1.5-1.8 mm / s), which does not allow the use of the known composition in small-sized smoke munitions with a relatively long time for generating smoke, about 10-15 minutes;

- the content of the components is not optimized for stable combustion of the composition and to ensure the specified destination.

Polyvinyl chloride at a minimum mass content (3%) is a technological additive, and at a maximum mass content (20%) it serves not as a binder, but as a functional component - an inert chlorine-containing oxidizing agent (worsening the flammability of the composition), which is fundamentally different and cannot characterize the composition unambiguously, changing its technological properties and performance characteristics.

As the closest analogue to the proposed composition, a pyrotechnic smoke-forming composition is selected, described in patent BG 62132 B1, 05/18/1999, C06D 3/00 (2006.01), which contains, wt.%:

hexachloroethane 59-69 zinc oxide 19-31 aluminum powder 4-10.5 phenol formaldehyde resin 2,3-3,2

The disadvantages of the known composition are unsatisfactory functionality for the main purpose and a short time of stable smoke generation due to the high rate of combustion.

Phenol-formaldehyde resin is a purely technological additive and serves as an additional organic fuel, for the combustion of which an increased content of metal fuel - aluminum powder is required.

The relatively high content in the known composition of aluminum provokes a flame spark burning, which can lead to ignition of the underlying surface and as a result unmask protected objects. At the same time, the specified specific consumption of smoke generation is not provided, that is, the functioning time of the smoke bomb is 60% of what is required, which requires a corresponding increase in the mass of the charge used.

The relatively low content in the composition of zinc oxide, the main smoke generator that interacts with hexachloroethane, at the lower limit of the content range determines unsatisfactory masking ability.

The problem to which the present invention is directed, is to increase the masking ability of the smoke-forming composition and the stability of its functioning with a noticeable decrease in the burning rate.

The required technical result is achieved by the fact that the pyrotechnic smoke-forming composition, including hexachloroethane, zinc oxide, aluminum powder and technological additive, according to the invention contains fluorine rubber as technological additive, in the following ratio, wt.%:

gesachloroethane 60-67 zinc oxide 27-32 aluminum powder 3-5 fluororubber 2-4

Distinctive features have provided a significant increase in the basic technical characteristics of the smoke-forming composition, its purpose indicators, technological properties and functional data.

The claimed composition differs from the known one in that it contains fluororubber and a quantitative ratio of components as a technological additive, which provides a new non-obvious quality - an improvement in the indicators of purpose.

Fluororubber, interacting with metal combustibles of the composition, additionally forms aluminum and zinc chlorides, enhancing the optical inhomogeneity of the smoke cloud, the refractive index of which varies irregularly due to density fluctuations and the dispersed condensed phase, which determines the visibility state of the formed masking curtain.

The conversion of incident optical radiation in a smoke cloud with randomly distributed inhomogeneities is accompanied by its attenuation due to absorption and unregulated scattering, that is, the reflected waves propagate in all possible directions, minimizing the level of reflection in the direction of the detection and guidance means.

The technical problem in the invention is to optimize the quantitative content of the components of the composition to maximize the performance indicators.

The optimal mass ratio of the structural components of the composition was calculated by the mathematical model of the planning of the experiment, which was verified experimentally by testing charges from the proposed smoke-forming compounds.

The proposed mass ratio of the known components of the pyrotechnic smoke-forming composition, compared with the proposed closest analogue (provided that the technological additive is replaced: instead of phenol-formaldehyde resin, fluororubber, which serves as an additional oxidizing agent forming zinc and aluminum chlorides and fluorides), is optimized to increase the masking effect of the aerosol generated during combustion, characterized by maximum scattering of optical radiation at a wavelength of 0.40-1.56 μm, which is much wider than that of known compositions (0.75-1.01 microns).

Moreover, the technical effect achieved by using the proposed composition for its intended purpose is noticeably improved, in particular:

- masking ability increased by 20-25%;

- burning time increased by 2.5-3.5 times;

- the burning rate is reduced by an order of magnitude;

- the length of the masking (invisible) smoke screen is increased by about 50%.

Hexachloroethane, zinc oxide and aluminum in an optimized mass ratio are the basis of the thermal mixture that provides the specified parameters of combustion and smoke formation.

When the content of hexachloroethane is less than 60 wt.%, The masking ability decreases.

When the content of hexachloroethane exceeds 67 wt.%, Slag formation increases with unstable combustion of the composition.

When the content of the main smoke generator - zinc oxide is less than 27 wt.% - the masking ability drops below the required value.

When the content of zinc oxide in the composition is more than 32 wt.%, The effectiveness of the main action decreases due to its incomplete consumption for the intended purpose.

By changing the content of aluminum, the depth of interaction of zinc oxide and carbon can be controlled.

If the aluminum content in the composition decreases, while the ratio of hexachloroethane and zinc oxide is maintained, the amount of free carbon in the smoke decreases, which makes the smoke whiter. In this case, the burning rate of the composition decreases.

When the content of aluminum in the pyrotechnic composition is less than 3 wt.%, The nature of combustion becomes unstable, pulsating.

When the aluminum content is more than 5 wt.%, A lot of free carbon is formed, as a result of which the smoke acquires an undesirable dark gray hue.

The use of high-calorie metal fuel - aluminum powder - allows you to increase the combustion temperature of the composition and, accordingly, the content and completeness of chlorination in the dispersed phase of zinc oxide.

High hygroscopicity of zinc chloride contributes to the production of a stable aerosol cloud with enhanced masking characteristics.

The pyrotechnic composition with a fluororubber content of less than 2 wt.% Is not technologically advanced due to dusting, which is unsafe and complicates volumetric dosing for charge pressing operations.

When the fluororubber content is more than 4 wt.%, The masking ability of the composition decreases, the technological drying time of which significantly increases.

The composition is prepared and processed according to the technology adopted in the pyrotechnic production, using existing standard equipment.

Hexachloroethane, aluminum, zinc oxide are introduced in powder form, fluororubber grade SKF-32 - in the form of a 25% solution in acetone.

Typical compositions with the content of components within the optimized ranges of their mass fractional parts, according to the limiting amounts of structural elements and beyond, are given in table 1.

Table 1 The content of the components of the proposed composition. Components The content of components, wt.% one 2 3 four 5 Hexachloroethane 59 60 63 66 68 Zinc oxide 34 32 thirty 27 25 Aluminum 6 four four 5 2 Fluoroelastomer one four 3 2 5

Tests of the experimental charges of the compositions according to the invention were carried out in an improved smoke bomb, the body of the functional element of which is a cylinder 65 mm high with an inner diameter of 300 mm.

The test results are presented in table 2.

table 2 Comparative technical characteristics of the proposed smoke-forming composition with analogues. Indicators Pressed composition (k = 0.85) Patent FR 249590 Patent BG 62132 one 2 3 four 5 Weight, kg 10 10 10 10 10 10 10 Masking ability, m ² / g 4.0 4.7 5,0 4.9 3,5 3.9 4.0 Burning rate, mm / s 0.25 0.1 0.12 0.17 0.15 ^• 1.4 1,2 Burning time, min 8 fourteen 12 10 - 3 four The amount of slag,% twenty fifteen 10 12 27 27 27 Smoke screen length, m 80-100 120-170 120-170 120-170 60-80 80-100 100-120 · - combustion with attenuation

From table 2 it follows that the proposed composition has a burning rate that is several times lower than the burning rate of the composition of the prototype.

SKF-32 brand fluororubber is a rubber containing 52% fluorine and 25% chlorine, which is an additional oxidizing agent that activates and stabilizes the process of smoke formation of the composition in a compacted state at low burning speeds (0.1 mm / s), which provide an increase in masking ability smoke clouds.

Fluororubber as a technological additive provides the required mechanical strength and physico-chemical stability of the charge under operating conditions, which is a unique property of the technological additive of the pyrotechnic composition.

Tests of prototypes of compacted charges from the compositions according to the invention showed reliable ignition and stable combustion.

The sensitivity of the proposed composition to mechanical stress is low, which is safe and increases its manufacturability in industrial serial production.

The composition is chemically stable and has sufficient physico-chemical stability.

Components are available and have a wide raw material base.

Under comparable operating conditions and charge parameters, the proposed composition, within the optimal mass content of the components, provides, compared with analogues, a smoke screen that is 40-50% higher in size and 3-4 times the duration of the smoke. The masking ability of the proposed smoke composition is 18-25% higher.

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 industrial serial production of a pyrotechnic smoke-forming composition, we can conclude that the patentability criteria are met.

Claims (1)

Pyrotechnic smoke-forming composition, including hexachloroethane, zinc oxide, aluminum powder and technological additive, characterized in that it contains fluororubber as a technological additive in the following ratio of components, wt.%:
gesachloroethane 60-67 zinc oxide 27-32 aluminum 3-5 fluororubber 2-4