RU2795435C1 - Green fire pyrotechnic composition - Google Patents

Abstract

FIELD: pyrotechnics.

SUBSTANCE: green fire pyrotechnic composition is related to pyrotechnic compositions based on metal nitrates, which are designed to form coloured fire when burned by the chemical interaction of several solid substances and is intended to form a green fire signal, which is used in signalling and target designation. The green fire pyrotechnic composition contains barium nitrate and potassium perchlorate as oxidizers, aluminium-magnesium alloy powder as a metal fuel, KhP-66T chlorinated paraffin as a colour enhancer, calcium stearate as a technological additive, and SF-342A phenol-formaldehyde resin powder as an organic binder. A 20% solution of fluororubber SKF-32 in acetone was introduced into the composition as a cementing agent. The ratio of components, in % by weight, is as follows: barium nitrate 52-55, potassium perchlorate 18-21, chlorinated paraffin KhP-66T 8.0-10.5, of aluminium-magnesium alloy powder PAM-4 8.0-8.5, phenol-formaldehyde resin SF-342A 5-7, calcium stearate 1.5-2.0, fluororubber SKF-32 as dry matter 1.5-2.0.

EFFECT: improved parameters of pyrotechnic composition of green fire.

1 cl, 1 tbl

Description

The invention relates to pyrotechnics, in particular to pyrotechnic compositions based on metal nitrates, which are intended for the formation of colored fire during combustion from the chemical interaction of several solid substances and is intended to form a green fire signal, which is used in signaling and target designation means in paramilitary and special units , and can also be used by rescuers, climbers, hunters, etc.

The invention provides a solution to the problem, namely, the development of a composition for charges with increased strength and a lower burning rate of the composition to ensure the duration of the burning time in the limited dimensions of the cartridge design and improving the manufacturability of preparing the composition for forming charges on high-tech equipment, the combustion of which provides a higher the saturation of the flame with a bright green color to ensure the range of visibility and visibility along the entire trajectory of the charge burning.

The level of this technical field characterizes the pyrotechnic composition of green fire, described in the invention, patent No. 2525419, С06В 33/14, C06D 3/00, priority dated 04.04.2013, which contains a color-forming oxidizer - barium nitrate, as a metal fuel - powder aluminum-magnesium alloy (PAM-4), a color enhancer, which is made in the form of a mixture of KhP-66T chlorinated paraffin powder and KhP-470 liquid chlorinated paraffin, and an organic fuel - phenol-formaldehyde resin SF-342A (iditol), introduced in the form of an alcohol varnish, with the following ratio of components, wt. %:

barium nitrate 67-73 aluminum magnesium alloy powder 8-10 chlorinated paraffin powder 14-16 liquid chlorinated paraffin 2-3 phenol-formaldehyde resin SF-342A (for dry matter) 3-4

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

The implementation of the green flame color amplifier in the form of a mixture of powder and liquid chlorinated paraffins is dictated by the need for complete chlorination of barium to obtain, during combustion, the composition of barium monochloride - the main emitter of monochromatic green color, which saturates the flame, resulting in an increase in the visibility range of the signal and its visibility when removed.

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

The combined use of a solution of phenol-formaldehyde resin SF-342A and liquid chlorinated paraffin KhP-470 as a chlorine-containing reagent in the pyrotechnic composition improves the processability of explosion-proof mixing of fine powder components and reduces internal friction during the formation of charges with reduced pressure.

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

However, the continuation of the noted advantages are the disadvantages inherent in the known composition, in particular, the charges made from the above composition have low strength due to a weak binder, a solution of phenol-formaldehyde resin SF-342A in acetone, introduced into the composition in a small amount and liquid chlorinated paraffin KhP- 470, which acts more as a supplier of chlorine, to form barium monochloride, which serves as the main emitter of a green monochrome color.

Also, the use of two liquid components in the composition as a binder, a solution of phenol-formaldehyde resin SF-342 in acetone and liquid chlorinated paraffin KhP-470, increases the drying time of the composition before granulation and the drying time of the finished composition before charge formation, which requires additional space.

The noted shortcomings are partially eliminated in the pyrotechnic composition of green fire according to patent No. the closest analogue to the proposed composition.

The required technical effect is achieved by the fact that the known pyrotechnic composition of green fire, including oxidizing agents - barium nitrate and potassium perchlorate, metal fuel - powder of aluminum-magnesium alloy, color enhancer - powder of chloroparaffin HP-66T, as an organic fuel - phenol-formaldehyde resin SF-342A and a technological additive - calcium stearate, with the following ratio of components (wt.%):

barium nitrate 42-45 potassium perchlorate 24-26 chlorparaffin HP-66T 7.5-8.0 aluminum-magnesium alloy powder PAM-4 14-16 phenol-formaldehyde resin SF-342A 8-6 calcium stearate 1.5-2.0

When this phenol-formaldehyde resin SF-342A is introduced into the mixture of components in the form of a 50% solution in ethyl alcohol.

The described pyrotechnic composition of the green color of the flame is characterized by an increased lifetime of a signal fire saturated with bright green color, which made it possible to achieve a greater range of visibility and distinguishability compared to analogues.

The use of barium nitrate and potassium perchlorate oxidizers in the pyrotechnic composition provides a new quality to the thermal basis of the composition - color enhancement with a green flame during the combustion of charges.

The use of an aluminum-magnesium alloy (PAM-4) as a combustible metal powder increases the calorific value of the thermal base due to the presence of aluminum, while maintaining the combustion dynamics of the thermal base of the composition with magnesium bound in the alloy, which allows the unpackaged use of charges.

The use of a solution of phenol-formaldehyde resin SF-342A in acetone as a technological additive, which phlegmatizes the pyrotechnic composition, providing activation of combustion, while entering into chemical interaction with barium nitrate, contributes to an increase in the combustion rate of the composition and additionally ensures the gas-dynamic removal of the generated particles of barium monochloride than intensifies the color of the flame.

The introduction of a strong chlorine-containing oxidizer, potassium perchlorate, with a corresponding decrease in the proportion of barium nitrate, made it possible to significantly increase the content of metallic fuel to increase the burning rate of the composition.

The composition of green fire is ideal for the formation of charges from it that do not require dimensional restrictions, such as fireworks, where due to the high burning rate of the composition, the mass of the charge increases, and accordingly the spread of charges increases, providing a more colorful spectacular firework effect.

A continuation of the noted advantages are the inherent disadvantages for using this composition as charges for signal cartridges:

- high burning rate of charges, which does not allow the use of charges with limited dimensions of the product body;

- insufficient strength of charges for signal cartridges with increased power of powder gases from the actuation of an expelling charge;

- insufficient flowability of the composition, to ensure automatic dosing on high-performance equipment.

The technical problem to be solved by the present invention is to expand the scope of the use of pyrotechnic compositions in signal charges and improve the performance of the pyrotechnic composition of green fire, namely, the development of a composition for charges with increased strength and a lower burning rate of the composition to ensure the burning time of the charges, in the limited dimensions of the design of the cartridge and improving the manufacturability of the preparation of the composition for forming charges on high-tech equipment, the combustion of which provides a higher saturation of the flame with a bright green color to ensure visibility and visibility.

To achieve technical results, the above prototype was taken as a basis with its advantages in combination of components that ensure the manufacturability of the preparation of the composition and good saturation of the flame color, namely:

- the use of aluminum-magnesium alloy powder (PAM-4) as a metal combustible, which increases the calorific value of the thermal base due to the presence of aluminum, which allows unpackaged combustion of charges;

- the use of two oxidizing agents in the pyrotechnic composition, which, when the reaction products are mixed, form a radically green color of the flame, and their optimal mass ratio ensures the saturation of the flame with green color during the combustion of charges;

- the use of perchloric acid, a strong oxidizing agent, to activate the combustion of potassium, which provides volumetric combustion of the composition, while reactive chlorine is generated, which enhances the saturation of the fire with color;

- the use of a technological additive - calcium stearate, which improves the compressibility of charges, reducing the sensitivity of the composition to friction under mechanical loads;

- the use of cheap and affordable chlorinated paraffin powder HP-66T, produced by domestic, industrial production, which is a supplier of chlorine and at the same time acts as a plasticizer for the composition.

The required technical result is achieved by the fact that the pyrotechnic composition of green fire, containing barium nitrate and potassium perchlorate as oxidizing agents, aluminum-magnesium alloy powder (PAM-4) as a metal fuel, color enhancer - chlorinated paraffin HP-66T, technological additive - calcium stearate, an organic binder - powder of phenol-formaldehyde resin SF-342A, an additional combustible binder was introduced in the form of a 20% solution of fluororubber SKF-32 in acetone, where fluororubber SKF-32 is a cementing agent, and acetone contained in the solution of fluororubber SKF-32 is sufficient for plasticizing the powder of phenol-formaldehyde resin SF-342A, which is both a binder and a combustible in the following ratio, wt. %:

barium nitrate 52-55 potassium perchlorate 18-21 chlorparaffin HP-66T 8-10.5 aluminum-magnesium alloy powder (PAM-4) 8-8.5 phenol-formaldehyde resin SF-342A 5-7 calcium stearate 1.5-2.0 fluororubber SKF-32 (for dry matter) 1.5-2.0

Distinctive features of the proposed technical solution improved the processability of preparing the composition by mixing due to the introduction of a solution of fluororubber SKF-32, consisting of 20% fluororubber, which is a cementing agent and 80% acetone, which is sufficient to simultaneously dissolve the SF-342A resin, which is combustible and additional binder , to ensure sufficient strength of the charges in the signal cartridge, after their formation, which burn with a bright green flame of a saturated color, clearly visible and distinguishable at a distance.

The joint use of these binders during mixing ensures their dispersion in volume and, due to the stickiness of the particles, a strong adhesive bond between the components of the mixture suitable for granulation.

After the technological solvent is removed from the prepared granules by drying, the composition acquires a new property - flowability, which provides the possibility of automatic dosing at the charge pressing operation.

An increase in the mass fractions of combustible binders - fluororubber SKF-32 and phenol-formaldehyde resin SF-342A due to a decrease in the mass fraction of fuel - aluminum-magnesium alloy powder in the composition made it possible to reduce the burning rate of charges from the composition and at the same time increase their strength.

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 features in disunity, that is, the technical problem posed in the invention is solved not by the sum of effects, but by a new super-effect of the sum of features.

The quantitative ratio of the components of the proposed pyrotechnic composition of the green signal fire was calculated according to the mathematical model of experiment planning and was confirmed by the achievement of the designation indicators during experimental testing of prototype charges.

The proposed composition is prepared according to the mixing technology adopted in pyrotechnics in a standard mixer, where all powder components are placed in measured fractions (wt.%): 54±3 barium nitrate, 20±2 potassium perchlorate, 8±1 powder of aluminum-magnesium alloy (PAM-4 ), 10±1.0 chloroparaffin HP-66T, 6±1 phenol-formaldehyde resin and 2±0.5 calcium stearate, which are mixed in a mixer.

After that, a 20% solution of fluororubber SKF-32 in acetone is added to the prepared mixture in the amount of 10 ± 2 (2 ± 0.5 - per dry matter) wt. %, after which they are mixed until the components are evenly distributed in volume. Then the prepared mixture is passed through a granulator and the finished composition is unloaded into trays and dried on a rack, after which it is sent for pressing charges of a given shape and size.

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

To achieve improved performance indicators, full-scale tests of pyrotechnic charges with a characteristic mass ratio of components, which are presented in the Table, were carried out.

Typical test compositions

Full-scale tests of prototypes of charges from compositions Nos. 2-4 fully confirmed the achievement of the intended targets and their suitability for use as green fire signals.

Composition No. 1 is characterized by unsatisfactory saturation of the flame with a green color, which reduces the range of distinguishability of the signal while reducing the content of barium nitrate and increasing the content of metallic fuel (PAM-4), while significantly increasing the sensitivity of signal charges to mechanical stress, due to the simultaneous increase in the content of potassium in the composition perchlorate and metallic fuel - PAM-4.

Composition No. 5 is non-technological due to the reduced strength of the charges, which, when flying out of the cartridge, have spalls, since a decrease in the solution of SKF-32 fluororubber could lead to an uneven distribution of the components in the volume of the mixture due to incomplete wetting of the dry components by the solution, which significantly affected the strength signal charge.

The proposed pyrotechnic composition is characterized by effective and stable formation of a green signal fire, the visibility and visibility of which is increased by 14-16%, the burning rate of the composition is reduced by 2 times and the strength of the charge ensures its safety when fired in signal cartridges compared to the prototype.

Comparison of the proposed technical solution with the closest analogues of the prior art did not reveal an identical match of the essential features of the invention.

The proposed differences in the pyrotechnic composition of green fire are not obvious to a pyrotechnician, which do not directly follow from the formulation of the technical problem.

The production of the proposed composition and signal charges from it can be carried out at the current mass production.

The technological regulations for the manufacture of the proposed pyrotechnic composition of the green signal fire have been worked out for mass production.

From the foregoing, it can be concluded that the invention complies with the conditions of patentability.

Claims (2)

Pyrotechnic composition of green fire, containing barium nitrate and potassium perchlorate as oxidizers, aluminum-magnesium alloy powder as a metal fuel, KhP-66T chlorinated paraffin as a color enhancer, calcium stearate as a processing aid, organic binder as phenol-formaldehyde resin powder SF-342A , characterized in that the composition introduced a 20% solution of fluororubber SKF-32 in acetone as a cementing agent, in the following ratio, wt. %: barium nitrate 52-55 potassium perchlorate 18-21 chlorparaffin HP-66T 8.0-10.5 aluminum-magnesium alloy powder PAM-4 8.0-8.5 phenol-formaldehyde resin SF-342A 5-7 calcium stearate 1.5-2.0 fluororubber SKF-32 for dry matter 1.5-2.0