RU2519171C2 - Pyrotechnic castable composition for smokescreen formation - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: pyrotechnic castable composition for smokescreen formation comprises wt %: a mixture of powder of chlorinated paraffin wax 41-48 and liquid chlorinated paraffin wax 10-12, the powder of metal fuel 5-10, smoke-generating zinc oxide 15-20, potassium perchlorate 9-15, and epoxy resin 1-2, at that the metal fuel it contains as aluminium powder or aluminium-magnesium alloy.

EFFECT: achievement of the required carrier strength of the charges of modified pyrotechnic castable composition which is characterised by high efficiency of smoke generation when creating a masking screen having a higher optical density.

Description

The proposed invention relates to pyrotechnic compositions, during combustion of which an aerosol is generated, forming a smoke cloud in air, used for setting a masking curtain.

The level of this technical field is characterized by a metal-chloride injection composition, which forms a smoke screen when burned, described in patent DE 2451701, C06D 3/00, 1976, which includes a mixture of chloroparaffin powder and liquid chloroparaffin in an optimized ratio, with a total content of 20-90 wt.%, metal fuel in the form of a powder of metals (aluminum, magnesium) and zinc oxide as a smoke generator.

According to the description of the known composition, a mixture of powders (wt.%): 20Mg + 45ZnO; 20Al + 45ZnO; 30Al; 20Al; 5Al + Ca ₂ Si.

The disadvantage of this composition is the presence of flame combustion due to the imbalance in the mass ratio of the components, which determines its low masking ability.

At the same time, the resulting pyrolysis soot remains in the slag from the carbon skeleton formed during the decomposition of chloroparaffins, in addition to the main chlorinating agent HCl.

Another disadvantage that limits the intended use of this over-compacted charge in the charges is the instability of combustion at low temperatures (below minus 30 ° C).

More perfect is the pyrotechnic molding composition for the formation of a smoke masking curtain according to the patent RU 2353605 C1, C06D 3/00, C06B 27/00, 2009, which is selected according to the technical nature and the number of matching features as the closest to the proposed composition.

Known pyrotechnic molding composition for the formation of a smoke masking curtain includes a mixture of chloroparaffin powder and liquid chloroparaffin in a mass ratio of 1: (2.4-3.3), aluminum powder as a metal fuel and smoke generator - zinc oxide, with the following components (wt. .%):

chloroparaffin powder 40-48 liquid chlorinated paraffin 12-20 aluminum powder 5-9 zinc oxide 31-35.

The known composition is characterized in that the formed optically opaque smoke screen has a new additional quality: it absorbs electromagnetic radiation with a wavelength of 1.06 and 1.2 μm, which increases the masking ability of the generated aerosol due to the partial absorption of laser and infrared radiation of detection and guidance means, respectively the enemy.

An optimized mass ratio in the composition of powder chloroparaffin and liquid paraffin is necessary to ensure the fluidity of the mixture when it is processed into charges by injection technology.

A mixture of powdered chloroparaffin (C ₂₅ H ₃₀ Cl ₂₂ ) and liquid paraffin (C ₁₈ H ₃₂ Cl ₆ ) is a supplier of a chlorinating agent HCl for the formation of metal chlorides, as well as pyrolysis carbon black, particles of which are half the length of the incident wavelength of laser and infrared radiation ( 0.53 and 0.6 μm). This ensures their absorption, significantly reducing the reflected signal, which in electronic means of detection and guidance is not identified with the protected target.

Liquid chloroparaffin provides wetting of the entire composition, heated to the pouring temperature of the composition directly into the body of the product.

The aluminum powder dispersed in the composition serves as a metal fuel for creating aluminum chlorides entering the smoke cloud, while heating zinc oxide to activate the substitution of oxygen by oxidizing chlorine, in which zinc chloride is formed - the main smoke generator of the composition.

A disadvantage of the known pyrotechnic composition is the poor optical permeability of the smoke screen due to the incomplete use of zinc oxide to maximize the production of a functional aerosol, its dispersed phase from the generated zinc chloride.

In addition, the mechanical strength of the smoke charges from the known pyrotechnic molding composition is not sufficient to maintain integrity when dropped from aircraft, which limits the scope of operational use.

The technical problem to which the present invention is directed is to increase the efficiency of smoke generation of a pyrotechnic cast composition during combustion in order to improve the purpose and expand technological capabilities for use.

The required technical result is achieved by the fact that the known pyrotechnic molding composition for the formation of a smoke screen, containing a mixture of powder of chlorinated paraffin and liquid chlorinated paraffin wax, metal fuel powder and smoke-forming zinc oxide, according to the invention, includes potassium chloride and epoxy resin, and contains aluminum or aluminum-magnesium alloy, in the following ratio of components, wt.%:

chloroparaffin powder 41-48 liquid chlorinated paraffin 10-12 metal fuel 5-10 zinc oxide 15-20 potassium perchlorate 9-15 epoxy resin 1-2.

Distinctive features of the proposed technical solution ensured the achievement of the necessary mechanical strength of the charges from the modified pyrotechnic molding composition, which is characterized by increased smoke formation efficiency when creating a masking curtain having a higher optical density.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the invention does not explicitly follow for a pyrotechnic specialist, but taking into account the practical possibility of serial production of smoke charges from injection pyrotechnic composition in an existing production, we can conclude that the patentability criteria are met.

The introduction of potassium perchloride into the pyrotechnic molding composition intensified combustion at elevated temperature and speed due to the release of structural oxygen, which made it possible to use an inactive technological additive - epoxy resin.

In this case, the intermediate reaction component of HCl is involved in substitution reactions, forming an additional hygroscopic dispersed phase of aluminum and zinc chlorides, which improves the masking ability of the smoke screen.

The epoxy resin introduced into the pyrotechnic composition serves as a charge cementer, increasing its mechanical strength, providing functionality when dropping smoke-generating products from a height.

The use of aluminum-magnesium alloy as a metal combustible powder is due to the fact that this ensures the necessary shelf life of the composition with guaranteed chemical activity of aluminum and a given burning rate stimulated by active magnesium.

Powder of aluminum-magnesium alloy during combustion completely converts the structural components of chlorine-containing components into aerosol, which improves the efficiency of smoke formation.

The introduction of aluminum-magnesium alloy powder into the pyrotechnic molding composition additionally increases the temperature and burning rate due to reactive magnesium, with the exception of passivation of bound aluminum.

The optimal ratio of components in the proposed smoke-forming composition was calculated according to the mathematical model of the experimental design and confirmed by the achieved performance indicators obtained by testing prototypes of products on the stand.

When a powder of chlorine paraffin is introduced into the pyrotechnic molding composition of less than 41 wt.%, The effectiveness of the masking effect of the smoke charge decreases.

When the content in the pyrotechnic composition of the powder of chlorine paraffin is more than 48 wt.%, Its molding properties deteriorate when processed into charges.

When the content in the pyrotechnic composition of liquid chloroparaffin is less than 10 wt.%, Injection molding technology for processing into smoke charges is not provided.

When the content in the pyrotechnic composition of liquid chloroparaffin is more than 12 wt.%, The composition acquires an increased viscosity. In this case, the flame burning rate increases with the formation of slags in which the dispersed phase of the aerosol is filtered, resulting in a decrease in the optical density and masking ability of the smoke curtain.

When the content of aluminum or aluminum-magnesium alloy powder in the pyrotechnic composition is less than 5 wt.%, The formation of smoke-forming aluminum chloride is significantly reduced.

When the content of aluminum or aluminum-magnesium alloy powder in the pyrotechnic composition is more than 10 wt.%, There is no noticeable improvement in the masking effect of the smoke screen.

When the content in the pyrotechnic composition of zinc oxide is less than 15 wt.%, The smoke-forming ability of the composition is reduced to an unacceptable purpose.

When the content in the pyrotechnic composition of zinc oxide is more than 20 wt.%, The formation of the dispersed phase of the aerosol is reduced due to the incompleteness of the use of the inert component at a developed combustion temperature of the composition.

When more than 15 wt.% Is introduced into the pyrotechnic composition of potassium perchlorate, thermal decomposition of the components occurs and the burning rate increases at which soot burns out, which worsens the masking ability of the smoke curtain due to a decrease in the absorption of infrared radiation and a decrease in its optical density.

When the content in the pyrotechnic composition of potassium perchloride is less than 9 wt.%, Incomplete combustion of the composition occurs, which reduces the destination.

Epoxy resin serves as a combustible binder, the presence of which in the mixture and during processing of the composition into charges eliminates dusting.

The adhesion of the epoxy resin to the components of the mixture increases the strength of the casting composition, and when using the charge as intended, the flammability improves.

When the content of the epoxy resin in the pyrotechnic composition is less than 1 wt.%, Flowability of the composition is not ensured due to the uneven distribution in the volume, therefore, automatic dosing is problematic. The mixture is not high-tech for serial production.

When the content of epoxy resin in the pyrotechnic composition is more than 2 wt.%, The drying time increases due to the prolonged removal of volatiles and moisture, the rate of burning of the charge decreases, which increases the time of placing the smoke curtain.

Therefore, each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is solved not by the sum of the effects, but by a new super-effect of the sum of the signs.

The preparation of the proposed pyrotechnic composition is carried out on conventional mixers according to the adopted technology of the existing production.

The calculated data on the quantitative ratio of the components of the pyrotechnic composition were verified experimentally in the manufacture of injection charges that generate a smoke curtain during combustion.

Prototypes for testing were prepared with a mass ratio of components at the borders, beyond the borders and within the optimized ranges of their content.

A measured quantity of ingredients is loaded into the mixer according to the optimized mass ratio (wt.%): 43 ± 5 powder of chlorine paraffin grade ХП-1100, 9 ± 1 powder of aluminum grade PA-4, ASD-4 or powder of aluminum-magnesium alloy brands PAM -3, PAM-4, 16.5 ± 1.5 zinc oxide in the form of equivalent zinc oxide of the BTsO, BTs-1 or BTsO-M grades in accordance with GOST 202, 11 ± 1 potassium chloride and 1.5 ± 0.5 epoxy resins which are mixed for 5-10 minutes.

Then, 19 ± 1 wt.% Of liquid chlorine paraffin ХП-470 and 1.5 ± 0.5 wt.% Epoxy are added to the mixer in the form of a 15% solution in acetone and mixed for 10 minutes until a heterogeneous viscous flowing mass is formed.

Then, from the prepared mass, heated to a temperature of 50 ° C, the functional charges are poured directly into the body of the products, where it cools down in air without expansion and cracking.

The data of comparative tests of prototypes of charges according to the invention showed a steady improvement in the performance indicators, compared with products of the prior art, providing, in particular:

- masking ability of 6-7 m ² / g;

- burning rate of 0.28-0.42 mm / s;

- the installation time of the smoke curtain is 1.5 times less than that of analogues, which determines the feasibility of industrial production of pyrotechnic charges for the installation of masking smoke curtains on orders of consumers.

Claims (1)

A pyrotechnic casting composition for the formation of a smoke curtain, containing a mixture of powder of chloroparaffin and liquid chloroparaffin, metal fuel powder and smoke-forming zinc oxide, characterized in that it includes potassium chloride and epoxy resin, and as a metal fuel contains aluminum or aluminum-magnesium alloy, the following ratio of components, wt.%:
chloroparaffin powder 41-48 liquid chlorinated paraffin 10-12 metal fuel 5-10 zinc oxide 15-20 potassium perchlorate 9-15 epoxy resin 1-2