RU2046122C1 - Pyrotechnic composition of blue fire - Google Patents

Abstract

FIELD: manufacture of decorative pyrotechnic candles. SUBSTANCE: the composition comprises (wt): 29.30-34.00 colloxylin; 9.50-11.20 nitroglycerin; 9.50-11.20 diethylene glycol dinitrate; 0.35-0.40 dinitrotoluene; 7.0-28.0 copper oxide; 3.0-15.0 polyvinyl chloride; 0.50-7.00 barium carbonate; 1.00-1.20 symm. diethyldiphenyl urea; 0.10-1.00 potassium cobalt nitrite; 0.35-0.40 vaseline oil, and an aluminium-magnesium alloy, the balance. The composition has the following properties: the light intensity is 1280-1450. The flame color intensity is 65-70; the smoke formation degree is 50-60 EFFECT: improved properties of the decorative pyrotechnic candles. 1 tbl

Description

 The invention relates to pyrotechnics, namely to the development and production of fireworks and signal products.

 The closest in technical essence and the achieved effect to the invention is the pyrotechnic composition of the blue fire, including, by weight. copper oxide 10-20, aluminum-magnesium alloy 5-15, polyvinyl chloride 6-10, cellulose nitrate (N> 12), i.e. pyroxylin 42.5-49.5 diphenylamine 0.5-1.5 and potassium perchloric acid the rest.

 The disadvantage of this composition is the low specific light sum and smokiness.

 The purpose of the invention is the improvement of operational properties by increasing the specific light sum and reducing smoke while maintaining high color saturation of the flame.

 This is achieved due to the fact that the pyrotechnic composition of blue fire, including cellulose nitrate, metal fuel and a flame-flame additive, contains aluminum-magnesium alloy as a metal fuel, cellulose nitrate (N ≅ 12) as cellulose nitrate, together with nitroglycerin and dinitrate diethylene glycol and dinit, sim-diethyldiphenylurea (centralite N 2) and liquid paraffin, as a flame-flame additive contains copper oxide and barium carbonate together with polyvinyl chloride and additionally soda rzhit potassium kobaltonitrit in certain ratios by weight.

 Nitroglycerin (GOST 13-19923-74), dinitrate diethylene glycol (GOST B 424-78) and dinitrotoluene (TU 6-09-3666-74) are plasticizers of cellulose nitrate (N ≅12).

 Colloxylin (N≅12), together with nitroglycerin, dinitrate ethylene glycol, dinitrotoluene and metallic fuel, acts as a thermal base, which determines the process of decomposition and dispersion of other components of the mixture into a flame with the formation of compounds emitting in the blue part of the spectrum in it. Cellulose nitrate (N≅12) GOST B 8163-72.

 The aluminum-magnesium alloy of the PAM-4 (GOST 5594-78) and AMD-50 (TU 48-5-176-78) grades is the main fuel, increasing the combustion temperature and increasing the radiation force.

 Centralit N 2 (GOST 194-68) is a stabilizer of chemical resistance of cellulose nitrate (N≅12), combined with a plasticizer, and, based on the experience of the powder industry, from 1 to 3% of their mass is introduced.

 Petroleum jelly (MHP 4020-23) is a technological additive that reduces the pressure of continuous pressing.

 Barium carbonate (GOST 4158-72) and copper oxide GuО together with polyvinyl chloride (GOST 143-78) is a flame-flame additive.

Potassium cobaltonitrite K ₃ CO (NO ₂ ) ₆ serves to increase the specific light sum and reduce smoke.

 Compositions based on these substances are non-toxic, physically stable and chemically stable.

 Sensitivity to shock and friction is at the level of regular ballistic powders of medium calorie content.

 The compositions were prepared in laboratory and factory conditions; The technology for preparing the compositions is as follows: the components were loaded into a “cooking” boiler and during the “cooking” process they were mixed until uniform. As a rule, to obtain a high-tech mass, the ratio between cellulose nitrate (N≅12) and plasticizer is in the range from 7: 3 to 1: 1, respectively. The finished mass was separated from the main part of the water and thermomechanical treatment was carried out on rollers. After plasticization, the composition was molded according to the technology of continuous pressing into cords on a screw press. Cords were cut into pyroelements of a given length.

 Tests of the samples were carried out during end-combustion according to the appropriate methods.

 The luminous intensity and the burning time were determined by the oscillogram of the combustion of the samples tested in accordance with GOST 2389-70.

 Flame saturation and the dominant wavelength were determined at the industry institute.

 The colorfulness and spectacular effect were evaluated when testing 105 mm fireworks of the Salute type.

 The results of comparative tests of the proposed composition and composition of the prototype, conducted in laboratory conditions and at the test site, are shown in the table.

 From the above data it is seen that in comparison with the composition of the prototype, all variants of the proposed composition of the blue fire with the selected ratio of the components have a higher specific light sum, less smoke while maintaining high color saturation of the flame.

 The use of the composition of blue fire based on cellulose nitrate (N )12) will increase the brightness of fireworks and the effectiveness of signaling.

 In addition, from the proposed pyrotechnic composition, it is possible to mold products both by the method of deaf and continuous pressing on equipment and according to the regimes used in the production of ballistic gunpowder in a wide range of dimensions of the products obtained, and load equipment and lines of plants for the production of ballistic gunpowder in the conversion process.

Claims (1)

 BLUE FIRE PYROTECHNIC COMPOSITION, including aluminum-magnesium alloy, polyvinyl chloride, copper oxide, characterized in that, in order to increase efficiency by increasing color and lighting characteristics, it contains colloxylin and additionally nitroglycerin, dinitrate diethylene glycol, cellulose nitrate, . diethyl diphenylurea, liquid paraffin, barium carbonate, potassium cobaltonitrite in the following ratio, wt. Colloxylin 29.30 34.00
Nitroglycerin 9.50 11.20
Dinitrate diethylene glycol 9.50 11.20
Dinitrotoluene 0.35 0.40
Copper oxide 7.0 25.0
Polyvinyl chloride 3.0 15.0
Barium Carbonate 0.50 7.00
Symm. diethyl diphenylurea 1.00 1.20
Potassium cobaltonitrite 0.10 1.00
Vaseline oil 0.35 0.40
aluminum-magnesium alloy

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