RU2354634C1 - Method for manufacture of pyrotechnic elements - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: method is suggested for manufacture of pyrotechnic elements with coating sensitive to fire impulse for signaling and fireworks product. Mixture of igniter composition is prepared in ethyl alcohol by means of serial filling up of the following components - magnesium powder, powder of aluminium-magnesium alloy and iron powder - into 20%-solution of phenol formaldehyde resin in ethyl alcohol, mixing, addition of potassium nitrate and mixing. Pyrotechnic elements are poured with mixture of alcohol and acetone with ratio of 30/70 and mixed to plasticise surface of pyrotechnical elements by 20-30% from their volume. Then pyrotechnic elements are poured with prepared suspension of igniter composition in ethyl alcohol and mixed with even rubbing of igniter composition in plasticised surface of pyrotechnic elements. Afterwards, pyrotechnic elements are mixed with black powder core with its even rubbing into plasticized surface of pyrotechnical elements and dried till content of volatile substances is 0.2-0.3%.

EFFECT: improved sensitivity of pyrotechnical elements to heat impulse.

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Description

The invention relates to pyrotechnics, and more specifically to a method for manufacturing composite pyrotechnic elements made with a coating of an igniter composition containing finely divided metal, an alloy in combination with an inorganic salt of nitric oxygen acids, which has an increased sensitivity to a thermal pulse that initiates surface combustion of pyrotechnic elements, and can be used in signal and firework products.

The ignition of compressed pyrotechnic charges is a certain problem with the organization of an ignition pulse for a flash composition, the temperature of which is above 1000 ° C.

This problem is solved by using igniter compositions adjacent to the main pressed pyrotechnic charge, whose flash point is 500-600 ° С. In this case, the best incendiary effect is achieved due to the slow burning of specially selected ignition compositions, during which sufficient heat transfer to the ignited main charge is ensured (see, for example, A. A. Shidlovsky. Fundamentals of Pyrotechnics. M., "Machine Building", 1973, p. .184, Fig. 13.3).

The specified technical solution has limited application, because it functions in the end combustion of a pressurized igniter composition to the main charge.

In addition, the implementation of this technical solution is not intended for serial production of small pyrotechnic elements.

The noted disadvantages are eliminated in the invention RU 2064914, С06В 21/00, 1996, which describes a high-throughput method of continuous pressing of pyrotechnic elements for signal and fireworks with a functional coating by coextrusion pressing of a coaxial multilayer cord containing a central core of the main pyrotechnic charge with adjacent tubular coatings from igniter and powder pulp - smoky gunpowder (Brief chemical encyclopedia, v.4. M., “Soviet Encyclopedia ”, 1965, p.267).

Multilayer cords are then cut across into composite relatively small pyrotechnic elements of autonomous ignition and combustion, which are used as charges of lighting and fireworks.

However, it does not seem technically feasible to mass-produce pyrotechnic elements modified with a functional coating with a diameter of less than 10 mm.

In addition, the described method is practically not implemented due to the lack of unique equipment for the manufacture of an endless multilayer coaxial cord from which pyrotechnic elements coated with an igniter composition are cut.

As the closest analogue, which coincides with the proposed method for most essential features, the method of manufacturing pyrotechnic elements with a fire-sensitive coating for the signal and fireworks product described in IV Bystrov was selected. "A short course of pyrotechnics." M., Oborongiz, 1940, p. 166, 176-177.

According to this method, the formed pyrotechnic elements are coated with a composition containing powder pulp, potassium nitrate, fuel and a binder that increases the sensitivity to the initial heat pulse, after which the prepared pyro-powder elements are dried.

A disadvantage of the known labor-intensive method is the unsatisfactory functional reliability of the composite elements due to the irregularity of the coating layer of the igniter composition, which is applied by coating the pyroelements, and also due to the peeling of this heat-sensitive coating having low adhesion with the functional composition, which manifests itself during drying of the elements, storage and transportation of products .

The noted drawbacks cause unstable ignition of pyroelements in the product, which burn unstable and may not completely burn, which reduces the effectiveness of the main action of functional charges.

The problem to which the present invention is directed is to create a productive method for manufacturing small pyrotechnic elements (with a diameter of 3 mm or more) with the automatic application of a high-quality igniter composition on their surface.

The required technical result is achieved by the fact that in the proposed method for the manufacture of pyrotechnic elements with a flame-sensitive coating for a signal and firework product, a suspension of igniter composition in ethanol is prepared by sequentially adding 20% solution of phenol-formaldehyde resin in ethanol to magnesium powder, aluminum-magnesium powder alloy and iron powder, stirring, adding potassium nitrate powder and mixing, in the following ratio of components ents on dry matter (wt.%):

potassium nitrate powder 70 aluminum-magnesium alloy powder 10 magnesium powder 10 phenol formaldehyde resin 10 iron powder (in excess of 100 wt.%) 10

the pyrotechnic elements are poured with a mixture of alcohol and acetone with a ratio of 30/70 and mixed to plasticize the surface of the pyrotechnic elements by 20-30% of their volume, then the pyrotechnic elements are poured with a prepared suspension of igniter in ethanol and mixed with uniform rubbing of the igniter in the plasticized surface of the pyrotechnic elements, after which the pyrotechnic elements are mixed with the powder pulp of the smoke powder with a uniform rubbing of the powder pulp in the pla the modified surface of the pyrotechnic elements and dried to a content of volatiles of 0.2-0.3%.

Distinctive features provided automatic production of ready-made pyrotechnic elements, in particular, with a diameter of 3-5 mm for signal and firework products, on the surface of which the igniter composition of the optimal composition is evenly distributed in structural unity.

Surface treatment of pyrotechnic elements with an alcohol-acetone mixture for 20-30% of their volume plasticizes the material from the outside to form a modified layer from successive layers of igniter composition and powder pulp of smoke powder, which increases the functional reliability of special pyrotechnic products with a visual effect.

The igniter composition and the powder pulp of smoky gunpowder, with sequential joint mixing in the mixer for a predetermined time with pyrotechnic elements having a plasticized surface layer as a result of interaction with the alcohol-acetone mixture, are mechanically rubbed outside, uniformly distributed over the surface, forming a functional layer sensitive to the fire pulse.

The content of volatile coatings is minimized to a technically achievable range of 0.2%.

With a volatile content of more than 0.3%, the flammability of the composition is unsatisfactory when less than 80% of the pyrotechnic elements ignite, which is unacceptable according to the technical conditions and operating rules of signal products.

In the proposed igniter composition, the optimal ratio between the oxidizing agent (potassium nitrate) and metal fuel (aluminum-magnesium and aluminum powders), which are bonded in a mixture by means of a combustible binder - phenol-formaldehyde resin, technologically diluted with ethyl alcohol, which is removed by drying the finished composite pyrotechnic elements, is selected.

Iron powder is additionally introduced into the structure of the igniter composition (10 wt.% In excess of 100%) to create ignition centers due to the fact that finely dispersed particles of iron powder distributed over the surface of the pyrotechnic elements quickly heat up during combustion of the igniter composition and ignite the pyrotechnic mixture of elements.

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 in the invention is solved not by the sum of the effects, but by a new effect of the sum of the features of the formula.

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 not known, and taking into account the possibility of industrial serial production of modified pyrotechnic elements for signal and fireworks, we can conclude eligibility criteria.

Pyrotechnic elements, preferably with a diameter of 3-10 mm, 20-25 mm, weighing 10-20 kg, are poured into the mixer and filled with an alcohol-acetone mixture in a ratio of 30/70 in an amount of 200-400 ml. Stirring is carried out for 5 minutes, during which the surface of the pyrotechnic elements is plasticized by 20-30% of the volume.

Then, in a mixer with pyroelements, the surface of which is plasticized, a suspension of a pre-prepared igniter composition weighing 1.2-1.6 kg is poured and mixed together for 15 minutes.

The igniter composition is prepared in a paddle mixer in two stages. First, a mixture of metal powders with phenol-formaldehyde resin of the SF-112A grade is prepared in the form of a 20% solution in ethanol, in which magnesium powder, aluminum-magnesium alloy powder and iron powder are successively poured into equal mass fractions. Stirred for 3 minutes, and then add potassium nitrate powder (70 wt.% Composition) and mix for 5 minutes.

When combined with pyro elements, the igniter composition is mechanically rubbed with a uniform layer into their plasticized surface, forming composite pyrotechnic elements.

Then, 0.4-0.6 kg of powder pulp is poured into the mixer and mixed for 10 minutes.

Gunpowder pulp (a semi-finished product of gun smoke powder) is a mixture of potassium nitrate, coal and sulfur, sensitive to thermal impulse.

The pyrotechnic elements processed from the surface are unloaded onto racks, where at a normal temperature of the workshop 18-25 ° C is dried for 8-16 hours to a volatile content of 0.2-0.3%.

Ready pyropohovoi elements pack for transportation or storage.

As a result, according to the described technology, pyrotechnic elements are obtained, the main charge of which is made for the purpose: smoke, spark-spark, etc., modified by a surface puff coating sensitive to thermal impulse, which ensures their autonomous ignition over the entire surface and volumetric burning in a product for official or domestic use .

The invention is illustrated by the following examples of the processing of pyrotechnic elements for fireworks and signal products.

Example 1 processing pyrotechnic elements with a diameter of 3-10 mm

10 kg of pyrotechnic elements were loaded into a drunk barrel mixer, which was filled with 200 ml of alcohol-acetone mixture.

After 5 minutes of stirring, 1600 g of igniter composition was added and mixed together for 15 minutes.

Then, 600 g of powder pulp of smoke powder was loaded into the mixer and mixed for 10 minutes.

Dried pyrotechnic elements burn 1-6 s at a flight altitude of 15-20 m when used in firework crackers, rockets, flying crackers.

Example 2 processing of pyrotechnic elements with a diameter of 20-25 mm for service purposes for signal missiles.

20 kg of pyroelements and 400 ml of alcohol-acetone mixture were loaded into the mixer.

After 5 minutes of stirring, 1200 g of igniter composition was added, since the total surface of the treated elements, compared to Example 1, is less. Joint stirring for 15 minutes

Next, 40 g of powder pulp of smoke powder was loaded into the mixer and mixed for 10 minutes.

Drying at normal temperature to a volatile content of 0.2-0.3%.

The proposed method can be used to process pyroelements of any size, having worked out the parameters and modes of the described operations for each specific case, in order to provide a given ignition temperature and thermal pulse energy.

Pyroelements according to the described examples are ignited from a match flame, and in a signal rocket charge - from a standard igniter capsule. This ensures stable ignition, stable combustion and complete combustion of the charge in a given mode of operation for the intended purpose.

The invention allows for the production of pyroelements, practically on existing equipment, to modify their surface to increase the sensitivity of the charges of products to an ignition pulse.

Claims (1)

A method of manufacturing pyrotechnic elements with a flame-sensitive coating for a signal and firework product, characterized in that a suspension of the igniter composition in ethanol is prepared by successively filling a 20% solution of phenol-formaldehyde resin in ethanol with magnesium powder, aluminum-magnesium alloy powder and iron powder, stirring, adding potassium nitrate powder and stirring in the following ratio of components to dry matter, wt.%:
potassium nitrate powder 70 aluminum-magnesium alloy powder 10 magnesium powder 10 phenol formaldehyde resin 10 iron powder (in excess of 100 wt.%) 10
the pyrotechnic elements are poured with a mixture of alcohol and acetone with a ratio of 30/70 and mixed to plasticize the surface of the pyrotechnic elements by 20-30% of their volume, then the pyrotechnic elements are poured with a prepared suspension of igniter in ethanol and mixed with uniform rubbing of the igniter in the plasticized surface of the pyrotechnic elements, after which the pyrotechnic elements are mixed with the powder pulp of the smoke powder with a uniform rubbing of the powder pulp in the pla the modified surface of the pyrotechnic elements and dried to a content of volatiles of 0.2-0.3%.