RU2525419C1 - Pyrotechnic composition of green fire - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: pyrotechnic composition of green fire comprises barium nitrate - 67-73 wt %, powder of aluminium-magnesium alloy - 8-10 wt %, iditol as an organic fuel-binder - 3-4 wt %, and the colour booster as mixture of powdered chlorinated paraffin - 14-16 wt %, and liquid chlorinated paraffin - 2-3 wt %.

EFFECT: increase in visibility range and distinguishability of the signal light due to the stable combustion pyro-elements and a bright glow of aerosol products of their combustion, at that expansion of field of application of pyrotechnic composition in fireworks charges is additionally achieved.

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Description

The invention relates to the field of pyrotechnics, and more specifically to pyrotechnic compositions based on metal nitrates, which are intended for the formation of colored smoke during the reaction of at least two solids.

The level of this technical field is characterized by the pyrotechnic composition of the green signal light described in UA 9607 A, F42B 4/00, 1996 [1], which contains (wt.%): 65 color-forming barium nitrate, 12 PMF-2 magnesium powder , PMF-3 as a metal fuel, 17 color enhancers - suspension polyvinyl chloride, 4.5 pine rosin as organic fuel and 1.5 industrial I-12A oils (technological additives).

The disadvantage of this composition is poor flammability and unstable combustion, requiring the use of an additional igniter - smoke powder, which increases the risk of production.

In addition, during the combustion of charges from this composition, a flame with a low green saturation of the signal light is formed due to the unbalanced mass ratio of the components, which limits the practical use for its intended purpose.

High-calorie metallic fuel burns quickly without generating a color-forming barium monochloride, which undergoes thermal degradation at a high combustion temperature of the composition, which affects the quality of the glow.

Rosin is an inert organic fuel, which makes it difficult to ignite a charge that burns slowly, which is suitable for signal lights, but unacceptable for fireworks.

When using industrial oil, its exudation is possible when forming charges, which limits the practical use of the composition.

More perfect is the pyrotechnic composition of green fire according to the patent RU 237039 C06D 5/06, 1967, which, according to the technical nature and the number of matching features, is selected as the closest analogue to the proposed composition.

The known pyrotechnic composition contains a color-forming oxidizing agent - barium nitrate, aluminum-magnesium alloy powder (PAM) as a metal fuel, copper grinding and organic combustible binder - iditol (in the form of an alcohol varnish) as the color enhancer, in the following ratio of components, wt. %:

barium nitrate 71-75 aluminum powder magnesium alloy 13-18 copper powder 8-12 iditol 1-2

The known composition is intended to create a colorful effect of twinkling stars due to periodic flashes of flame.

However, the pulsating combustion of the pyrotechnic composition determines the instability of functioning with a sharp limitation of the range of visibility and distinguishability, unsatisfactory parameters of the signal light.

In addition, the known composition is not technologically advanced due to dusting when mixing components and poor compressibility.

The technical problem to which the present invention is directed is to improve the performance of pyrotechnic charges, namely: stable ignition and combustion of the composition, accompanied by a bright glow of a green-saturated flame, which allows to expand the scope of the composition in the charges of the green signal light for fireworks.

The required technical result is achieved by the fact that the known pyrotechnic composition of green fire, including barium nitrate, aluminum-magnesium alloy powder, as an organic combustible binder iditol and color enhancer, according to the invention, contains a color enhancer made in the form of a mixture of powder and liquid chlorinated paraffins, in the following ratio of components, wt.%:

barium nitrate 67-73 aluminum powder magnesium alloy 8-10 chloroparaffin powder 14-16 liquid chloroparaffin 2-3 iditol 3-4

Distinctive features of the proposed technical solution provided the expansion of the scope of use of the pyrotechnic composition as charges of signal fire and for fireworks characterized by increased visibility and distinguishability due to its stable burning and bright glow of aerosol combustion products.

In this case, the optimized ratio of the components of the thermal base (metal fuel / oxidizing agent) compared with the prototype is reduced by one and a half times, which ensured the stability of ignition and combustion of the molded charge from the proposed composition.

The optimal mass ratio of the color-forming oxidizing agent and the metal fuel PAM ensured the active burning of the pyrotechnic composition with the given temperature and speed, while active magnesium is used structurally related to aluminum, which increased the calorific value of the metal fuel while lowering the burning temperature of the molded charge, without reducing its burning rate.

The quantitative ratio of the structural components of the pyrotechnic composition was calculated using the mathematical model of the experimental design, which was confirmed by the improvement of the performance indicators achieved during field tests of prototypes of signal and firework charges.

The implementation of the color signal amplifier of the flame signal in the form of a mixture of powder and liquid chloroparaffins is dictated by the need for complete barium chlorination to obtain the composition of barium monochloride, the main emitter of monochromatic green, when burning, and is aimed at increasing the saturation of the flame with green.

As a result of increasing flame saturation with green, the signal visibility range and its distinction are increased.

When the content of barium nitrate in the pyrotechnic composition is more than 73 wt.%, There is no increase in color and intensity of the glow of the flame due to the high temperature of the charge burning.

When the content of barium nitrate in the pyrotechnic composition is less than 67 wt.%, The required burning rate of the formed charge is not provided.

The use of aluminum-magnesium alloy powder as a metal fuel in the pyrotechnic composition is aimed at demonstrating the positive properties of structural components: aluminum increases the calorific value and combustion temperature, and the magnesium bound in the alloy increases the burning rate of the composition.

When the content of the aluminum-magnesium alloy powder in the pyrotechnic composition is more than 10 wt.%, The color of the flame decreases due to the high combustion temperature and thermal decomposition of barium monochloride from violation of the sublimation conditions.

When the content of the aluminum-magnesium alloy powder in the pyrotechnic composition is less than 8 wt.%, The burning of the formed charges is unstable, while the burning rate is insufficient to achieve the specified level of flame illumination required for the color signal.

When burning a pyrotechnic composition, in which the content of chlorine paraffin powder is less than 14 wt.%, An insufficient amount of chlorine is formed to maximize the production of barium monochloride, which stains the flame green.

When the content of barium nitrate in the pyrotechnic composition is more than 16 wt.%, The burning rate drops to the level of instability, when the destination indicators for the color saturation of the flame and the intensity of its glow are not reached.

When the content of liquid chlorine paraffin in the pyrotechnic composition is less than 2 wt.%, The wettability of the components is not fully ensured, which causes the uneven distribution in the charge volume and, as a consequence, the instability of charge burning and the glow of the combustion products of the composition.

When the content in the pyrotechnic composition of liquid chloroparaffin is more than 3 wt.%, Its inadmissible exudation onto the surface of the formed charges is possible.

When the iditol content in the pyrotechnic composition is less than 3 wt.%, Dusting is possible when the composition is mixed, and the shaped charge is unstably ignited due to its uneven distribution in the volume, which leads to instability of the combustion parameters.

The content in the pyrotechnic composition of iditol of more than 4 wt.% Is impractical, since the flammability of the charge does not noticeably improve.

The combined use of iditol and liquid chlorinated paraffin in the pyrotechnic composition increases the manufacturability of explosion-proof mixing of finely divided powder components and reduces internal friction when forming charges under reduced pressure.

The proposed qualitative composition with the optimal quantitative content of the components ensured stable combustion of the formed charges with the formation of a flame saturated with green, and a bright glow of the combustion products to obtain a firework effect.

This new pyrotechnic composition is characterized by chemical resistance and physical stability, designed for signal and fireworks, it burns with the formation of a green flame, the size and lighting characteristics of which practically do not change over time.

Therefore, each essential feature is necessary, and their combination 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 not solved by the sum of the effects, but by a new effect of the sum of the attributes.

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 unknown, and taking into account the practical feasibility of manufacturing pyrotechnic charges of a signal green flame and for fireworks in an existing production facility, one can do Conclusion of eligibility for patentability.

The proposed pyrotechnic composition is made and molded into charges according to industry-accepted industrial technology using existing equipment.

Mixing pre-dried, ground and sieved powder components of a pyrotechnic composition in measured proportions (wt.%): 70 barium nitrate, 9 powder of an aluminum-magnesium alloy of the PAM-3, PAM-4 and 15 powders of chlorine paraffin, loaded into a paddle mixer and mixed for 8-10 minutes until they are evenly distributed in the mixture.

Then, 4 wt.% Iditol in the form of an alcoholic varnish (30% solution of iditol in ethanol) and 2 wt.% Liquid chlorine paraffin HP-470 are added to the prepared mixture of powder components of the composition, after which the components are further mixed for 6-8 minutes to obtain a homogeneous composition composition.

The prepared elastoplastic, volumetric dosed material is formed into functional charges on hydraulic presses.

Field tests of prototype charges from the proposed pyrotechnic composition showed an increase in the range of visibility and visibility of the green signal, with increased brightness, which creates a colorful effect in fireworks charges.

Achieving improved performance indicators (a new technical result of the invention) is illustrated by the data obtained during field tests of pyrotechnic charges with a characteristic mass ratio of the components shown in Table 1.

Table 1 Components The content of components (wt.%) In the compositions No. 1 Number 2 Number 3 barium nitrate 67 70 73 aluminum-magnesium alloy powder 10 9 8 chloroparaffin powder 16 fifteen fourteen liquid chloroparaffin 3 2 2 iditol four four 3

The main indicators of purpose obtained during testing of pyrotechnic charges from these pyrotechnic compositions, compared with the prior art, are:

- the range of visibility and visibility of the color signal is 1.3-1.5 times increased;

- the saturation of the signal light with green glow is increased due to monochromatic radiation generated by BaCl, with concomitant sparking, which creates a colorful firework effect, thereby expanding the scope of the proposed pyrotechnic composition;

- provides reliable flammability of the composition and stability of combustion of pyroelements from the composition according to the invention.

The presence of a bright green glow of the flame during combustion with a lower temperature and gas generation, accompanied by the formation of a sparking plume, allows the composition to be additionally used in charges for fireworks with the formation of a colorful effect.

The proposed pyrotechnic composition, which is easily flammable in charges, is characterized by stable combustion parameters and is chemically stable, which makes it possible to use charges made of it without a shell, which simplifies production and expands the scope for both fireworks and signal green fire charges.

A comparative analysis of the proposed pyrotechnic composition with the identified analogues of the prior art, from which the invention does not explicitly follow for a specialist in pyrotechnics, showed that it is not known, and taking into account the practical feasibility of mass production of fireworks and signal lights using equipment operating in the industry, Conclusion of eligibility for patentability.

Claims (1)

The pyrotechnic composition of green fire, including barium nitrate, aluminum-magnesium alloy powder, as an organic combustible binder iditol and color enhancer, characterized in that the color enhancer is made in the form of a mixture of powder and liquid chloroparaffins, in the following ratio, wt.%:
barium nitrate 67-73 aluminum powder magnesium alloy 8-10 chloroparaffin powder 14-16 liquid chloroparaffin 2-3 iditol 3-4