RU2719009C1 - Pyrotechnic composition of green fire - Google Patents

Abstract

FIELD: chemistry.SUBSTANCE: invention relates to pyrotechnics, specifically to pyrotechnical composition of green fire. Composition includes barium nitrate, metallic fuel - powder of aluminium-magnesium alloy, chromaticity amplifier - chloroparaffin powder CP-66, iditol, potassium chloride and process additive - calcium stearate, with the following ratio of components (wt. %): barium nitrate 42–45, potassium chlorate 24–26, chlorinated paraffin wax ChP-66T 7.5–8.0, aluminium-magnesium alloy powder 14–16, iditol 8–6, calcium stearate 1.5–2.0; wherein iditol is added to the mixture of components in form of 50 % solution of phenol-formaldehyde resin SF-342A in ethyl alcohol.EFFECT: technical result consists in improvement of technological effectiveness of preparation and increase in burning speed of the composition.1 cl, 1 tbl

Description

The invention relates to pyrotechnics, and more specifically, to pyrotechnic compositions based on metal nitrates, which are intended for fireworks, which form a colored flame and smoke as a result of the reaction of at least two solids.

The level of this technical field is characterized by the pyrotechnic composition of green fire described in patent RU 237039, C06D 3/06, 1967, which contains a color-forming oxidizing agent - barium nitrate, aluminum-magnesium alloy powder (PAM) as a metal fuel, color enhancer - powder copper grinding and organic combustible binder iditol, introduced in the form of alcohol varnish, in the following ratio of components, wt. %:

barium nitrate 71-75 PAM 13-18 copper powder 8-12 iditol (dry matter) 1-2.

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

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

In addition, this composition is not technologically advanced due to dusting during mixing of the components and poor compressibility into charges.

The noted disadvantages are eliminated in the pyrotechnic composition according to the patent RU 2525419, С06В 33/14, C06D 3/00, 2014, which is selected by technical essence and the number of matching features as the closest analogue to the proposed one.

The known pyrotechnic composition of green fire includes barium nitrate, powder of aluminum-magnesium alloy (PAM), as an organic combustible binder iditol and color enhancer, which is made in the form of a mixture of powder chlorine paraffin HP-66T and liquid chlorine paraffin HP-470, in the following ratio of components, wt. %:

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

Pyrotechnic charges formed from this composition, having an optimal metal fuel / oxidizer ratio, stably ignite and burn at a given temperature and speed provided by active magnesium bonded in an alloy with aluminum, which increases the calorific value and combustion temperature.

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, when burning, the composition of barium monochloride - the main emitter of monochromatic green color, which saturates the flame, resulting in an increase in signal visibility and its distinguishability at a distance.

As an organic combustible binder, iditol is used in the form of a 30% solution of phenol-formaldehyde resin SF-342A in ethanol, which is removed from the prepared mixture when it is dried.

The joint use in the pyrotechnic composition of the solution of iditol and liquid chloroparaffin, as a chlorine-containing reagent, has improved the processability of explosion-proof mixing of finely divided powder components and reduced internal friction when forming charges under reduced pressure.

The well-known pyrotechnic composition has provided an extension of the field of use for signal green fire charges and for fireworks characterized by increased visibility and distinguishability due to its stable burning and bright glow of aerosol combustion products.

However, a continuation of the noted advantages is the inherent disadvantages of the known composition, in particular, low spectacular fireworks effect with a small radius of expansion of pyrotechnic elements that burn at a relatively low speed, so their mass is limited.

The known composition is non-technological, when using two binders in small quantities: - iditol due to possible dusting when mixing the composition, while the molded charge is unstably ignited; - liquid chloroparaffin, since the mixture is heterogeneous due to unsatisfactory wettability of the components, which determines a large variation in the characteristics of the purpose of the pyrotechnic elements from it, the instability of combustion and luminescence of the combustion products of the composition, or the unacceptable exudation of excess chloroparaffin on the surface of the formed charges.

The technical problem to which the present invention is directed is to improve the known composition to improve the purpose and improve the manufacturability of the preparation of pyrotechnic charges of green fire.

The required technical effect is achieved by the fact that the known pyrotechnic composition of green fire, including barium nitrate, metal fuel is aluminum-magnesium alloy powder, color enhancer is chloroparaffin powder KhP-66T and, as an organic fuel, iditol, according to the invention, it additionally contains potassium perchlorate and technological additive - calcium stearate, in the following ratio of components (wt.%):

barium nitrate 42-45 potassium perchlorate 24-26 chloroparaffin HP-66T 7.5-8.0 aluminum-magnesium powder alloy 14-16 iditol 8-6 calcium stearate 1.5-2.0

while iditol is introduced into the mixture of components in the form of a 50% solution of phenol-formaldehyde resin SF-342A in ethanol.

Distinctive features of the proposed technical solution made it possible to create a new high-quality pyrotechnic composition in which an optimal quantitative ratio of components for stable combustion of the formed signal and firework charges with the formation of a flame saturated with green color and products of bright glow burning is provided.

The additional introduction of a strong chlorine-containing oxidizing agent (potassium perchlorate), with a corresponding decrease in the proportion of barium nitrate, significantly increased the content of metallic fuel to increase the burning rate of the composition, halved the proportion of chloroparaffin powder, eliminating liquid chlorinated paraffin from the composition, which improved the manufacturability of the preparation and molding of it charges of increased functional properties.

This is facilitated by a double increase in the proportion of iditol, the ethyl alcohol content in the solution of which was raised from 30 to 50% to better wet the fine powder components.

The optimized ratio of metal fuel / oxidizing agents provided an increase in the burning rate of the composition to improve the spectacular firework effect, which has a larger radius of the sphere of expansion of the pyrotechnic elements, since it became possible to increase their mass at a given burning time.

The introduction of a technological additive - calcium stearate, a thermostabilizing plasticizer, and a minimum mass is necessary to reduce the sensitivity of the composition to friction when mixing the components and when forming charges.

The quantitative ratio of the structural components of the pyrotechnic composition of the green fire according to the invention was calculated according to the mathematical model of the experimental design, which was confirmed by the improvement of the performance indicators achieved in the field tests of prototypes of signal and firework charges.

When the content in the pyrotechnic composition of barium nitrate is less than 42 wt. % the burning rate of the compacted elements decreases.

When the content in the pyrotechnic composition of barium nitrate is more than 45 wt. % there is no visible improvement in color and flame intensity due to the high combustion temperature.

When the content in the pyrotechnic composition of potassium perchloride is less than 24 wt. % decreases the saturation of the fire in green.

The content in the pyrotechnic composition of potassium perchloride is more than 26 wt. % is ballast, which reduces the appointment, as it upsets the identified balance of the ratio of other components.

When the content in the pyrotechnic composition of chloroparaffin HP-66T is more than 8.0 wt. % the burning rate drops to the level of instability when the destination indicators for the saturation of the flame with green color and the intensity of its glow are not reached.

The content in the pyrotechnic composition of chlorine paraffin HP-66T is less than 7.5 wt. % determines the release of a little chlorine during the chemical interaction of the reagents for the formation of barium monochloride, which dyes the flame green.

When the content in the pyrotechnic composition of PAM is more than 16 wt. % part of the components burns out, as a result of which the color of the flame and the spectacular effect are reduced. Due to the high combustion temperature, the sublimation conditions are violated and thermal decomposition of the reaction barium monochloride occurs.

When the content in the pyrotechnic composition of PAM is less than 14 wt. % the burning rate decreases, which does not provide a given glow intensity.

When the content in the pyrotechnic composition of iditol in the technological solution is more than 8 wt. % requires continuous drying of the prepared composition before forming a charge from it, which requires additional production space and energy consumption.

When the content in the pyrotechnic composition of iditol in the solution is less than 6 wt. % dusting is possible when mixing components, ignition of charges is unstable due to uneven distribution of components in the volume of the mixture.

The content of calcium stearate is optimized in the range of 1.5-2.0 wt. % for guaranteed technological insensitivity to friction when pressing charges.

The proposed pyrotechnic composition is characterized by chemical resistance and physical stability, and the magnitude and lighting characteristics of the generated green flame practically do not change in time.

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 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.

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 is loaded into a paddle mixer in measured proportions (wt.%): 43.5 ± 1.5 barium nitrate, 25 ± 1 potassium perchlorate, 7.75 ± 0.75 chlorine paraffin ХП-66Т , 15 ± 1 PAM-4 and 1.75 ± 0.25 calcium stearate and mixed for 7-10 minutes until they are evenly distributed in volume.

Then, in the prepared mixture of powder components of the composition, 7 ± 1 wt. % iditol (in a 50% solution of phenol-formaldehyde resin SF-342A in ethanol), after which it is mixed for 5-7 minutes until a homogeneous composition is obtained, which is unloaded onto trays with a layer of 1-2 cm and dried until the volatile content is not higher 0.6 wt. %

The prepared elastoplastic, volume-dosed material is molded into charges on hydraulic presses.

In order to optimize the quantitative ratio of the components of the modernized composition according to the invention, test compositions were prepared that include structural elements within the proposed range, its middle and outside the optimized values of the required minimum and maximum amounts of their mass content in the composition.

The achievement of improved prescribing indicators is illustrated by data obtained from field tests of pyrotechnic charges with a characteristic mass ratio of the components presented in the Table.

Typical Test Compositions

Full-scale tests of prototypes No. 2-4 of the proposed pyrotechnic composition showed an increase in luminosity over a greater range of visibility and distinguishability of a signal-saturated green light and a bright spectacular effect of a firework with an increased separation distance of its pyrotechnic elements.

The composition of sample No. 1 is not technologically advanced for mass production due to dusting during mixing of the components, compacted charges ignite unsatisfactorily, the functional flame has a reduced luminosity and not saturated green color due to the insufficient rate of unstable burning of charges.

The composition of sample No. 5 has an increased sensitivity to friction when mixing the components and when forming charges, it is characterized by prolonged drying, the flame during burning has a reduced luminosity, which reduces the range of visibility and distinguishability of the green signal, the spectacular effect of the fireworks is not colorful enough.

A comparative analysis of the proposed technical solution with identified analogues of the prior art showed that it is not known, that is, meets the criterion of "novelty" of patentability conditions.

The technical nature of the invention in the new set of essential features clearly does not follow for a specialist in pyrotechnics, and the combination of components in their claimed mass ratio is not obvious.

Therefore, taking into account the practical feasibility of serial production of pyrotechnic signal and firework charges of green flame on existing pyrotechnic equipment, we can conclude that the claimed invention meets the patentability conditions.

Claims (3)

1. Pyrotechnic composition of green fire, including barium nitrate, metal fuel - powder of aluminum-magnesium alloy, color enhancer - chloroparaffin powder KP-66T and iditol as an organic fuel, characterized in that it additionally contains potassium perchlorate and technological additive - calcium stearate , in the following ratio of components (wt.%): barium nitrate 42-45 potassium perchlorate 24-26 chloroparaffin HP-66T 7.5-8.0 aluminum-magnesium alloy powder 14-16 iditol 8-6 calcium stearate 1.5-2.0 2. The composition according to p. 1, characterized in that iditol is introduced into the mixture of components in the form of a 50% solution of phenol-formaldehyde resin SF-342A in ethanol.