SU1740359A1 - Pyrotechnic fireworks spark composition - Google Patents

Abstract

This invention relates to firework pyrotechnic products. Composition contains%: ammonium perchlorate 11-22. magnesium 2-8; aluminum 8-18, vinyl chloride-vinyl acetate copolymer 6-15; nitrofilm 1-3, ferrosilicon 7-19 and inorganic nitrate oxidant 30- 47. The composition with the yellow color of the flame contains sodium nitrate 30-47% as the inorganic nitrate oxidant and, additionally, dicyandiamide 2-6% contains the composition with green color of the flame as an inorganic nitrate oxidant, barium nitrate is 30-43%. The compositions are prepared by mixing the components, followed by deaf pressing of the pyroelements. Characteristics of the composition: the length of the force of sparks is 0.7-1.6 m for samples with a diameter of 20 mm, the force is thick, and the sparks constituting it are uniform in size. 2 h. p f-ly, 4 tab.

Description

This invention relates to sparkling pyrotechnic fireworks. compositions used to equip fireworks.

Known composition containing ammonium perchlorate 50-60%. urotropin 12-16%, iditol 6-10% and metal powders (steel or cast iron sawdust, powders of aluminum or its alloy with magnesium) 18-28%.

The disadvantage of this composition is the need to treat sawdust using a special technology to remove the oxide layer before introducing them into the composition. In addition, during the storage of the compositions or pyroelements of them, the oxide layer on the surface of the sawdust appears again, which leads to a sharp decrease in terms

storing pyroelements and fireworks.

The closest to the present invention is a composition containing barium nitrate 38-42%, ammonium perchlorate 19-21%, copolymer of vinyl chloride with vinyl acetate 13-15%, magnesium powder 4.5-5.5%, aluminum powder 14-16%, dicyandiamide 4.5-5.5% and nitrofilm 0.9-1.1%.

The disadvantage of this composition is the relatively low spectacle of the force of the sparks formed by the burning pyroelements of this composition. This disadvantage is due to the fact that forces form short, sparse (by the number of sparks), non-uniform (by the size of sparks).

The goal of the invention is to increase the visibility of the forces of sparks created by burning pyroelements from fireworks.

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a sparkling force composition due to an increase in the length, density, and uniformity of the shaped spark.

This goal is achieved by the fact that the composition, including ammonium perchlorate, magnesium, aluminum, copolymer of vinyl chloride with vinyl acetate, nitro film, and inorganic nitrate oxidizer, is additionally introduced ferrosilicon powder in the following ratio of components, wt.%:

Ammonium perchlorate 11-22

Magnesium MPF-32-8

Aluminum PA-48-18

Vinyl chloride copolymer with BA-156-15 vinyl acetate

Nitropile1 3

Ferrosilicon FS-757-19

Inorganic nitrate oxidizer30-47

At the same time, in order to impart a yellow flame to the burning composition, it contains as an inorganic nitrate oxidant sodium nitrate in an amount of 30- 47 wt.% And additionally contains dicyandiamide in an amount of 2-6 wt.%. In order to give the flame a burning composition of green color, it contains as an inorganic nitrate oxidant barium nitrate in an amount of 30-43 wt.%.

The proposed composition, in contrast to the known compositions with ferrosilicon, is characterized by a significantly lower rate of oxidation of ferrosilicon than that of aluminum. Due to this, the length of the force sparks is increased. The absence of the process of agglomeration of ferrosilicon and a significant decrease in its introduction into the composition of the agglomeration of aluminum in the condensed phase of the burning composition leads to an increase in density (increase in the number of sparks) and uniformity (in size of sparks) force.

When using ferrosilicon, the spectacularity of fireworks increases.

The proposed composition is manufactured according to the usual for pyrotechnic production technology for the manufacture of varnish compositions. All components except nitrofilm. used in powder form. Nitroplenca is introduced into the composition, in the form of a 10% aqueous solution in acetone. The composition is prepared using mixers commonly used in pyrotechnic production.

The sensitivity of the proposed composition to friction according to GOST 13803-80 is high, to the impact according to GOST 13802-79 - very high, to an electric spark according to OST V84-1909-81 - low The composition according to OST B84-1279-76 is chemically resistant

For carrying out comparative tests with the composition of the prototype, the mixtures of the proposed composition were made, the content of components in which is indicated

in tab. 1 and 2.

The results of comparative tests are presented in table. 3 and 4.

The characteristics given in the tables are determined on samples with a diameter of 20 mm pressed at a specific pressure of 200 MPa. The length of the force was determined by comparison with the measuring rails placed next to the test samples with scales applied to them.

5 lengths. Evaluation of the entertainment of sparks by its density and uniformity was made visually in points (on a 10-point scale). In tab. 3 and 4 show the averaged values of the estimates.

An analysis of the results of comparative tests shows that the entertainment characteristics of the proposed composition have significantly higher values than the prototype composition, and the chosen ratio of components in the proposed composition provides the optimal combination of these characteristics.

Claims (3)

1. Pyrotechnic fireworks iso-crystalline composition, including ammonium perchlorate, magnesium, aluminum, a copolymer of vinyl chloride with vinyl acetate. nitrofilm and inorganic nitrate oxidant, characterized in that 5 increasing the efficiency by increasing the length, density and uniformity of the force sparking flame during combustion, it additionally contains ferrosilicon in the following ratio of components, wt%: Ammonium perchlorate11-22 Magnesium (MPF-3) 2-8 Aluminum (PA-4) 8-18 Vinyl chloride copolymer with vinyl acetate (BA-15) 6-15 5 Nitroplenka1-3 Ferrosilicon (FS-75) 7-19 Inorganic nitrate oxidizer30-47 2. Composition of pop 1, characterized in that, in order to make the flame yellow coloring, it contains as an inorganic nitrate oxidant sodium nitrate in the amount of 30-47 wt.% and additionally contains dicyandiamide in an amount of 5-6 may%. 3. The composition according to claim 1. characterized in that, in order to give the flame a green color, it contains barium nitrate in the amount of 30-43 May% as an inorganic nitrate oxidant. Table 1 The proposed composition with a yellow flame Offered with green flame color Composition with a yellow flame Table 2 Table 3 Composition g green flame color Table 4