RU2331619C1 - Pyrotechnic composition of white flame with periodical flame flares in combustion - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: invention relates to pyrotechnic compositions for charging signaling and fireworks appliances. A white flame composition with periodical flame flares in combustion is proposed containing barium nitrate, aluminum-magnesium alloy powder with the grain size of 60-160 micron, dibutyl phthalate and nitrocellulosa or gun cotton powder as an organic binder.

EFFECT: higher-efficiency of pyrotechnic charge combustion and optimum flame pulsation.

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Description

The invention relates to pyrotechnic compositions for creating charges used to equip signal and fireworks and products.

The level of this technical field is characterized by the white-fire pyro-powder composition containing pyroxylin, potassium chloride, copper oxide, aluminum-magnesium powder and diphenylamine, which during combustion creates an effective glow with color stability, has good flammability and is technologically advanced when processed into a charge by continuous pressing (see invention SU 1519157, C06B 25/18, 1995).

Charges from the specified pyro-powder composition during combustion satisfy the main requirements of the destination: colorfulness and originality, have a saturation of the color of the flame, the burning rate ensures the combustion of the elements of the fireworks charge in the air.

Compositions made on the basis of recyclable pyroxylin powders are distinguished by better flammability and low smoke.

The disadvantage of the described composition of white fire is the inexpressive spectacular effect of signals and fireworks due to the absence of periodic flashes of flame during its burning, the so-called flicker effect of stars, which reduces the consumer qualities of the pyrotechnic charge and limits its scope.

The noted drawback is eliminated in the pyrotechnic compositions according to the inventions SU 241269 and 390053, С06D 1/00, which contain an oxidizing agent (barium nitrate, strontium), metallic fuel (aluminum-magnesium alloy powder) and an organic binder, introduced into the mixture in the form of a solution in ethyl alcohol . These pyrotechnic compositions are characterized by the fact that during combustion they form a flickering flame with a flash frequency that is clearly visually distinguishable at a great distance from the burning place of the signal or fireworks charge.

The combustion of pyrotechnic compositions occurs in the form of separate foci that arise and disappear. With a small size of the foci and a significant number of them on the combustion surface, a flame is formed that has parameters that are constant in time: temperature, composition of the combustion products, radiation, therefore, combustion is perceived as uniform.

As the surface of the foci increases and their quantity on the combustion surface decreases simultaneously, the temperature, flame size, and radiation intensity begin to change quite significantly over time. When the size of the source (surface of the composition capable of burning during the next acceleration) equal to or greater than the burning surface, the flame periodically disappears completely.

Combustion of compositions with a regular extinction of the flame is pulsating (flickering) and occurs when mixtures are burned: oxygen-containing oxidizing agent - metallic and / or organic fuel.

According to the number of matching features, the pyrotechnic composition according to the invention SU No. 390053, 1973, containing an oxidizing agent - barium nitrate and strontium nitrate, metallic fuel - an aluminum-magnesium alloy powder in the form of a mixture of PAM-3 and PAM-, was selected as the closest analogue to the proposed one 4 (in a ratio of 2.5: 1) with a dispersion of 40-315 microns, magnesium oxide and iditol as an organic combustible binder.

From the pyrotechnic composition at a pressure of 1000 kg / cm ^2, stars (charges) are pressed into a cardboard shell with a diameter of 10 mm, the combustion of which is characterized by stable alternation with an interval of 0.8-0.3 bright flashes (specific light intensity 13000-17000 sv / g) lasting 0.1 s with an interval between flashes of 0.8-0.3 s, providing a spectacular firework effect. The frequency of flashes is ensured throughout the entire burning time of the charge - up to 15 s.

However, in the known composition, the dispersion of the aluminum-magnesium alloy powder is not optimized, which contains particles of 315 μm in the amount of 56 wt.%, And 40 μm in the amount of 11 wt.%, Which makes at least two thirds of the mass of metal fuel non-functional for ensure a stable flicker frequency.

When the dispersion of the powder is below 60 μm, the frequency of the flashes increases and becomes visually difficult to see visually at a distance from the fireworks, and when the dispersion of the powder is above 160 μm, the pulsation frequency decreases to almost complete degeneration, that is, the main technical characteristic of the charge is not achieved.

The transition of uniform combustion to stably pulsating occurs when the equality of heat input and heat sink is violated in the zones of combustion reactions, where the interaction of the components is accompanied by an inductive period during which the composition attenuates. The main reason for the frequency of combustion of the mixture is an organized discrepancy between the preparation time of the layer and the time of its combustion.

In addition, the disadvantages of the known composition are increased smokiness, which reduces the brightness of the glow during combustion, and the difficulty of igniting the overcharged charge, which requires the use of an additional igniter charge.

The pressing of dry mixtures of a pyrotechnic composition by dull pressing into a shell is explosive and is characterized by low productivity.

The known composition without a shell does not burn, a charge with a diameter of less than 10 mm burns unstably, without providing flicker, which limits the intended use.

The problem to which the present invention is directed, is to expand the technological capabilities of the pyrotechnic composition and increase the functional reliability of the charge burning from it with guaranteed stability of flame pulsations in the optimal mode.

The required technical result is achieved by the fact that the known pyrotechnic composition of white fire with periodic flashes during combustion, containing barium nitrate, aluminum-magnesium alloy powder and an organic fuel binder, according to the invention contains dibutyl phthalate as a plasticizer, aluminum-magnesium alloy powder with a dispersion of 60-160 microns, and as an organic combustible binder - nitrocellulose or pyroxylin powder, in the following ratio of components, wt.%:

nitrocellulose or pyroxylin powder 35-53 barium nitrate 25-34 aluminum-magnesium alloy powder fineness of 60-160 microns 20-30 dibutyl phthalate 1-2.

Distinctive features were ensured by productive continuous pressing of pyro-powder compositions in the form of a channel cord, measuring elements from which 2-7 mm in diameter stably burn without a shell, guaranteed to provide flicker in a given mode of flame pulsation during combustion with the required flame pulse duration, which expands the field of application of the composition and reduces its consumer value.

The use of nitrocellulose or plasticized pyroxylin gunpowder as a combustible binder in the composition, which cement the mixture, made it possible to manufacture elements from a cord obtained by efficient continuous pressing, the flammability of which is improved.

When burning a charge from the proposed composition, a greater purity of the color of the flame from reducing smoke is achieved.

The use of pyroxylin powder as an organic combustible binder makes it possible to utilize the last of the arsenals.

The optimal quantitative ratio of the components of the proposed pyro-gunpowder composition of white fire with periodic flashes of flame during combustion was calculated according to the mathematical model of the experimental design and worked out experimentally in practical experiments of their burning. In this case, the main characteristics of the composition of flickering lights were evaluated: the purity of the color of the flame, the dominant wavelength, the frequency of the flashes and the interval between them.

When the content of nitrocellulose or pyroxylin gunpowder in the composition is less than 35 wt.%, It is practically impossible to use continuous pressing; mechanical cutting of the formed cord into piece pyroelements poses a danger of ignition.

When the content of nitrocellulose or powder of pyroxylin powder in the pyro-powder composition is more than 53 wt.%, The purity of the color of the flame decreases, the flame pulsation during combustion is unstable and degenerates. At the same time, it is difficult to remove the solvent from the dense charge, which increases the burning time until the firework elements fall on the Earth, which is unsafe.

Barium nitrate is an active oxidizing agent and, together with metallic fuel, an aluminum-magnesium alloy powder, forms a thermal mixture.

The range of barium nitrate content in the pyro-powder composition is optimized by the visually distinguishable frequency of flame pulsations during its combustion.

When the pyro-powder composition of barium nitrate contains less than 25 wt.%, Pulsations degenerate to almost uniform combustion.

The content of barium nitrate in the composition of more than 34 wt.% Leads to visually indistinguishable frequent pulsations of the flame, which is perceived as continuous, that is, the effect of stellar flicker is lost.

Powder aluminum-magnesium alloy is used with a dispersion in the range of 60-160 microns for better distribution in composition and more tight contact with the oxidizing agent, thereby increasing the surface and burning rate, the completeness of combustion of the components.

When aluminum-magnesium alloy is introduced into the powder composition, less than 20 wt.% Flame pulsations during combustion are unstable, at a content of more than 30 wt.% They completely degenerate.

Introduction to the composition of dibutyl phthalate is mainly due to the use of pyroxylin gunpowder as an organic combustible binder, which must be plasticized before mixing with the rest of the ingredients to a matrix base suitable for continuous pressing of the prefabricated pyropohora elements in the form of a cord. This hardly volatile plasticizer reduces the pressing pressure of the prepared mass of the composition to practically acceptable values of industrial production.

A content of dibutyl phthalate in the composition of less than 1 wt.% Is insufficient to form a homogeneous mass, without lumps.

When the content in the mixture of dibutyl phthalate is more than 2 wt.% Does not give a noticeable improvement in the technological properties of the pressed mass, however, it increases the smokiness of the charges from the prepared pyro-powder elements, worsening the main indicators of the composition.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve the 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 super-effect of the sum of the attributes.

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, showed that it is not known, and taking into account the possibility of industrial production of pyro-powder elements for flickering fireworks, by-pass pressing of the semi-finished product in the form of a cord allows to conclude that patentability criteria are met.

Experimental testing of the proposed composition achieved a stable frequency of flame flares during charge burning in an amount of 3-5 V s (against 2-3 in the prototype) with a ripple depth of 95-100%, which provides a pronounced visual effect of flickering stars.

The proposed pyro-powder composition of the white light of a flickering flame during combustion is made as follows.

The crushed pyroxylin powder or nitrocellulose of the calculated mass is poured into a paddle mixer together with dibutyl phthalate and half filled with the amount of ethyl alcohol necessary for plasticization, then stirred for 20 minutes at normal temperature, as a result of which the technological and thermal basis of the composition flickering during combustion is obtained.

Then, barium nitrate according to GOST 1713-79 and aluminum-magnesium alloy powder (PAM) with a selectivity of selective particles of 60-160 μm are successively added to the plasticized base and the second half of ethyl alcohol is poured to its total weight of 30-40% by weight of the composition, after which mix for 10-15 minutes at normal temperature.

Next, a cord with a diameter of 2-7 mm is formed from the prepared composition by continuous pressing.

The cord wound in a riot is kept at a temperature of 20-30 ° C for 20 minutes to dry the mixture so that it does not adhere to the cutting tool during the subsequent manufacture of measured pyropohovoi elements. At the same time, the cord does not wrinkle and cutting is explosion-proof.

Chopped piece elements are dried at normal and elevated temperatures to contain volatile in the range of 2-4 wt.%.

The proposed technical solution ensured a productive passage-type charge pressing in the form of a channel cord, measured pyroelements from which 2–7 mm in diameter stably burn without a shell, guaranteed to create flame flicker in a given pulsation mode with the required flame pulse duration, which expands the field of application of the composition and reduces its consumer cost.

Thus, experimental batches of pyroelement samples were prepared for comparative tests and optimization of the quantitative composition, typical examples of which are given in the table.

Table compositions
№№ The content of components, wt.% Destination metrics gunpowder or SC Ba (NO ₃ ) ₂ PAM DBF one 34 33 32 one Poor mechanical strength of the charge; no full flame pulsations 2 fifty 25 23 2 Conforms to technical requirements 3 40 38 twenty 2 Almost uniform burning with a visually indistinguishable frequency of rare pulsations four 55 27 16 2 No ripples in the flame

The table shows that composition 2, whose components are in the declared ranges of optimal content, provides the specified technical characteristics for the main purpose, in particular, the frequency of flashes of a saturated color flame of 3-5 per second with its full cyclic attenuation, which is clearly distinguishable visually.

The claimed composition is recommended for industrial use in the manufacture of fireworks and signaling devices with a pulsating flame during the burning of charges.

Claims (1)

Pyrotechnic composition of a white fire with periodic flashes of combustion, containing nitric acid barium, an aluminum-magnesium alloy powder and an organic fuel binder, characterized in that it contains dibutyl phthalate as a plasticizer, an aluminum-magnesium alloy powder with a dispersion of 60-160 microns, and as an organic combustible binder, nitrocellulose or pyroxylin powder in the following ratio of components, wt.%: nitrocellulose or pyroxylin powder 35-53 nitric acid barium 25-34 aluminum-magnesium powder alloy fineness of 60-160 microns 20-30 dibutyl phthalate 1-2.