RU2462443C1 - Pyrotechnic composition of white signal light - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: pyrotechnic composition of a white signal light includes in wt %: barium nitrate - 62-68, potassium nitrate - 12-14, a powder of metal fuel and additional fuel. At that as a metal fuel the composition contains powder of aluminium-magnesium alloy - 17-19, as an organic fuel - pine resin - 2-3, and as additional fuel - industrial oil 1-2.

EFFECT: stability of combustion of the pyrotechnic composition with white flame, which is well visible and discernible at a relatively greater distance, the composition is prepared by simple mixing the components, dense and mechanically strong charges are pressed out of the mixture.

1 tbl, 6 ex

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 white fire, including barium nitrate, strontium nitrate, aluminum-magnesium alloy powder (metal fuel), magnesium oxide and an organic fuel binder - iditol, which is introduced in the form of a 10-20% solution in ethanol described in the invention SU 390053, C06D 1/00, 1973

This pyrotechnic composition is characterized by increased specific light intensity and a clean white flame during combustion, which is facilitated by dispersed powders of magnesium oxide and strontium nitrate.

However, the drawback of the described pyrotechnic composition of the white fire is its narrow purpose - pulsating combustion, formed by periodic flashes of flame, which limits its use as a signal composition of the white fire with stable burning of the charge from it.

The noted drawback is excluded in the pyrotechnic composition of the white light described in the book by A.A.Shidlovsky "Fundamentals of Pyrotechnics", Mechanical Engineering, 1973, p.206-207, which contains, wt.%: 56 barium nitrate, 11 potassium nitrate, 6 barium fluoride, 19 aluminum (metal fuel) and 8 sulfur, additional fuel, technological composition cementer.

Sulfur as an additional fuel is necessary to prevent the formation of barium monofluoride in the flame and contributes to the generation of free fluorine for the complete oxidation of chemical reaction products, which increases the burning rate of the composition.

According to the technical nature and the number of matching features, this composition is selected as the closest analogue to the proposed pyrotechnic composition of a white signal light.

When burning a known pyrotechnic composition, barium nitrate gives the flame a greenish tint, potassium nitrate - pinkish; with their joint presence in the composition, the flame is not bright white.

The latter quality limits the functionality of using the composition as a signal, steadily burning for a relatively long time, clearly visible and distinguishable at a remote distance.

In addition, the known composition is not environmentally friendly due to the high content of sulfur in the combustion products, which in the surface layer of the atmosphere reactively forms harmful substances.

The technical problem to which the present invention is directed is to improve the pyrotechnic composition of the white fire to increase its functionality for the intended purpose, while improving the manufacturability of the mixture and pressing charges from it.

The required technical result is achieved by the fact that the known pyrotechnic composition of a white signal light, including barium nitrate, potassium nitrate, metal fuel powder and additional fuel, according to the invention, contains aluminum-magnesium alloy powder, pine rosin as organic fuel and additional oil as metal fuel industrial, in the following ratio of components, wt.%:

barium nitrate 62-68 potassium nitrate 12-14 aluminum-magnesium alloy powder 17-19 pine rosin 2-3 industrial oil 1-2.

Distinctive features ensured the stability of combustion of the pyrotechnic composition with a white flame, which is clearly visible and distinguishable at a relatively greater range. In this case, the composition is prepared by simple mixing of the components; dense and mechanically strong charges are pressed from the mixture.

The mass ratio of barium and potassium nitrates, as well as the relative proportion of metallic fuel in the structure of the thermal base of the pyrotechnic composition, are kept as optimal, compared with the prototype. But at the same time, a more effective powder of aluminum-magnesium alloy was used as a metal fuel in the composition, which ensured an increase in the burning rate.

The total content of barium nitrate and potassium nitrate in the pyrotechnic composition of less than 74 wt.% Does not provide the set burning speed and time for a longer glow time of the white light of the required brightness.

The increase in the mass fraction of the above nitrates in the amount of more than 82 wt.% Will lead to unstable combustion of the pyrotechnic composition and degeneration of its functional purpose as a signal white light due to low visibility and visibility.

When the pyrotechnic composition of the powder of aluminum-magnesium alloy (PAM-3 and PAM-4) is less than 17 wt.%, The burning rate decreases sharply, which proceeds unstably, up to the attenuation.

When the content of aluminum-magnesium alloy powder in the pyrotechnic composition is more than 19 wt.%, The specified signal lifetime is not achieved, which does not satisfy the functionality requirements.

Pine rosin brand A is a good cementer, which increases the bearing strength of pressed pyrotechnic charges, in contrast to the organic combustible binder - iditol in a known composition.

In this case, rosin phlegmatizes the combustion of the pyrotechnic composition, lowering the temperature, which relatively increases the signal lifetime, that is, improves the functionality of the generated red signal.

A content of rosin in the pyrotechnic composition of less than 1 wt.% Is insufficient to significantly reduce its burning rate in order to actually increase the lifetime of a color signal.

When the rosin content is more than 3 wt.%, Instability of the combustion of the charge occurs due to the strong phlegmatization of its combustion.

The introduction of the industrial grade I-12A oil into the pyrotechnic composition improves the manufacturability of the pyrotechnic composition by eliminating dusting when mixing finely divided powder components and ensures their uniform distribution during pressing by reducing internal friction, which allows to increase the specific pressing forces of charges with stable combustion.

When the content of industrial oil in the pyrotechnic composition is less than 1 wt.%, The above technological and functional advantages of the composition and pressed charges from it are not guaranteed.

When the industrial oil content in the pyrotechnic composition is more than 2 wt.%, Its exudation is unacceptable.

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 solved not by the sum of the effects, but by a new super-effect of the sum of the attributes.

The quantitative ratio of the components of the proposed new qualitative composition was calculated according to the mathematical model of the planning of the experiment and was experimentally confirmed to achieve higher destination indicators, compared with analogues and standard pyrotechnic compositions.

Verification of the parameters of flame color burning of the charges pressed from the pyrotechnic compositions of various formulations was carried out under identical conditions.

Table. Formulation Formulations Components Compositions content of components, wt.% one 2 3 four 5 6 barium nitrate 62 62 65 66 68 70 potassium nitrate fourteen 12 13 16 12 10 PAM powder 19 21 eighteen 17 fifteen fifteen pine rosin four 3 3 0.5 2 3 industrial oil. 2 2 one 0.5 3 2

The table shows the compositions of the experimental charges with a characteristic content of components within the proposed ranges, at the boundaries of the limiting values and beyond these boundaries.

Field tests of experimental charges from the pyrotechnic compositions of the white signal light showed that the required level of destination indicators is guaranteed and fully achieved when burning sample No. 3, which includes components whose mass content is within the stated ranges. The combustion of this pyrotechnic composition provides the specified optical and temporal parameters of the signal, in particular, a stable bright white flame, distinguishable and visible at a distance exceeding the standard one by 30%, and the distance according to the prototype by 20%.

Due to the significantly reduced burning rate of the composition according to sample No. 1, which contains an excess of rosin, the achieved brightness of the white signal is not enough for its distinguishability at a set distance.

The composition of sample No. 2, in the thermal basis of which the metal fuel content is more than optimal, quickly burns out, which limits the possibility of its use as a signal, since the white flame has a short lifetime.

The increased content of potassium nitrate in composition No. 4, relative to the proportion of barium nitrate (with their total mass in the thermal base not exceeding the declared amount), leads to a decrease in the quality of the signal that exists for a long time burning the charge, which does not satisfy the requirements of the technical and technical specifications.

In addition, due to the insufficient content of industrial oil in the composition, the mechanical strength of the charge is lower than required, and its technological processing is accompanied by dusting.

Composition No. 5 is characterized by insufficient combustion temperature, which leads to a deterioration in the optical properties of the generated flame signal; when the charge is pressed, exudation of excess oil in the composition occurs, which is unacceptable under operating conditions.

Composition No. 6 is fundamentally unsuitable as a signal white light charge, since in the quantitatively unbalanced thermal base it does not ensure the completeness of the chemical interaction of the components and, therefore, when the charge is burning, the necessary burning speed and temperature are not achieved to obtain a bright white flame.

The proposed composition is prepared and pressed into charges according to the technology adopted in the pyrotechnic industry on existing equipment.

Mixing pre-prepared (dried, crushed and sieved) powder components of the pyrotechnic composition with measured shares is carried out in a 6LS type paddle mixer for 5-10 minutes until the mixture is homogenized.

Then in the prepared mixture of dry powders add 1-2 wt.% Oil industrial grade I-12A and mix for 5 minutes.

The prepared elastic-plastic loose, volumetric dosed material is pressed into pyrotechnic charges on hydraulic presses with a specific pressure one third lower than in the prototype.

Field tests of prototypes of pyrotechnic charges showed an increase of 20-30% in the range of visibility and visibility of the white signal.

A comparative analysis of the essential features 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 possibility of serial production of a composition for signal charges in the existing pyrotechnic production, we can conclude eligibility criteria.

The achieved indicators of the purpose of the pyrotechnic composition make it possible to recommend it for the industrial manufacture of white signal fire charges for the purpose of delivery to consumers.

Claims (1)

The pyrotechnic composition of the white signal light, including barium nitrate, potassium nitrate, metal fuel powder and additional fuel, characterized in that it contains aluminum-magnesium alloy powder, pine rosin as organic fuel and additionally industrial oil in the following ratio of components, as metal fuel wt.%:
barium nitrate 62-68 potassium nitrate 12-14 aluminum-magnesium alloy powder 17-19 pine rosin 2-3 industrial oil 1-2