RU2633545C1 - Yellow light pyrotechnic composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: pyrotechnic composition contains the following components, wt %: sodium nitrate 30-50, magnesium milling powder 15-30, cellulose 7-11.25, pyroxylin 7-11.25 and trinitrotoluene 14-22.5.

EFFECT: increasing the colour saturation, the specific light-sum up to 2 times and obtaining radiation at the dominant wavelength corresponding to the yellow part of the spectrum; the composition has a good flammability, allowing to dispense with the transition composition, allows the use of ammunition disposal products, which reduces the cost of the product and improves environmental friendliness of the ammunition disposal process.

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Description

The invention relates to pyrotechnic fireworks compositions of yellow fire for illumination, entertainment, entertainment and signaling purposes.

Known pyrotechnic composition of yellow fire containing magnesium powder, sodium nitrate, silicate block and calcium stearate in the following ratio of components, wt. %:

magnesium powder 45-47.5 sodium nitrate 21-23.5 silicate block 23.5-25 calcium stearate 5-10,

see RU Patent No. 2394802, IPC С06В 33/04 (2006.01), СВВ 31/02 (2006.01), 2010.

Known pyrotechnic composition has a high content of expensive components, insufficient flammability (for its ignition requires a transitional composition).

Known pyrotechnic fireworks composition containing colloxylin, nitroglycerin and / or dinitrodiethylene glycol or mixtures thereof with dinitrotoluene in a ratio of 18: 1 to 6: 1, sim-ethyl diphenylurea, liquid paraffin, aluminum-magnesium alloy, cryolite in the following ratio, wt.%. :

colloxylin 35.0-50.3 non-volatile plasticizer colloxylin - nitroglycerin and / or dinitrate diethylene glycol or their mixture with dinitrotoluene in the ratio from 18: 1 to 6: 1 21.7-36.0 sim diethylphenylurea 1.0-2.0 Vaseline oil 0.5-1.5 aluminum-magnesium alloy 15.0-20.0 cryolite 4.0-12,

see SU Copyright Certificate No. 1776027, IPC6 C06B 33/14, 1995.

Known pyrotechnic fireworks composition has a high content of expensive components, insufficient flammability (for its ignition a transitional composition is necessary).

The pyrotechnic composition of yellow fire is also known, containing pyroxylin, potassium perchlorate and definylamine, oxalic sodium, aluminum-magnesium alloy in the following ratio, wt.%:

pyroxylin 40.5-55.5 potassium perchlorate 16-23 oxalic sodium 12-16 diphenylamine 0.5-1.5 aluminum-magnesium alloy rest,

see SU Author's certificate No. 1535017, IPC6 С06В 33/06, С06В 39/02, 1995.

Known pyrotechnic composition has a high content of expensive components, insufficient flammability (for its ignition requires a transitional composition).

Known pyrotechnic composition of yellow fire containing colloxylin, nitroglycerin, dinitrate diethylene glycol, dinitrotoluene, cryolite, potassium cobaltonitrate, sim-diethyl diphenylurea, liquid paraffin in the following ratio, wt.%:

colloxylin 55.08-57.50 nitroglycerine 17.85-18.60 dinitrate diethylene glycol 17.85-18.60 dinitrotoluene 0.66-0.67 cryolite 1.0-4.0 potassium cobaltonitrate 1.0-2.0 Diethyl diphenylurea 1.90-1.92 Vaseline oil 0.66-0.70,

see RU Patent No. 2046118, IPC6 C06B 33/08, 1995.

Known pyrotechnic composition has a high content of expensive components, insufficient flammability (for its ignition requires a transitional composition).

The closest in technical essence is a pyrotechnic fireworks composition, including sodium nitrate, magnesium powder and polyvinyl chloride in the following ratio of components, wt.%:

sodium nitrate 56 magnesium powder 17 polyvinyl chloride 27,

see Shidlovsky A.A. Fundamentals of pyrotechnics. - M.: Mechanical Engineering, 1973. - 201 p.

The known pyrotechnic composition has insufficient saturation of the color of the flame and flammability (a transition composition is necessary for its ignition), the dominant wavelength of this composition corresponds to the yellow-orange region of the spectrum.

The objective of the invention is the creation of a pyrotechnic firework composition having a high saturation of the color of the flame, a greater specific light sum and emitting in the wavelength corresponding to the yellow part of the spectrum, having good flammability, which allows avoiding the transition composition, as well as reducing the cost of the product and improving the environmental friendliness of the ammunition disposal process.

The technical problem is solved in that the pyrotechnic fireworks composition of yellow fire, including sodium nitrate, milling magnesium powder, according to the invention, it additionally contains cellulose, pyroxylin and trinitrotoluene in the following ratio, wt.%:

sodium nitrate 30-50 milling magnesium powder 15-30 cellulose 7-11.25 pyroxylin 7-11.25 trinitrotoluene 14-22.5

The solution to the technical problem allows to increase the color saturation up to 90%, increase the specific light sum up to 2 times, improve flammability, obtain radiation of the composition at the dominant wavelength corresponding to 578 nm, the use of cellulose, pyroxylin and trinitrotoluene, which are the products of ammunition disposal, representing a crushed material of burning cartridges, which allows to reduce the cost of the product, to improve the environmental friendliness of ammunition disposal.

Characterization of substances used in the pyrotechnic fireworks composition of yellow fire.

Cellulose, pyroxylin, trinitrotoluene are components of the product of the disposal of ammunition (burning cartridges). In addition, in the production of combustible sleeves, process wastes account for up to 40% of annual output. When disposed of by burning combustible shells by conventional combustion, toxic products are emitted into the atmosphere in the form of nitrogen and carbon oxides and hydrogen cyanide, which are classified as hazard classes 2 and 3.

The grinding of burning sleeves is carried out in a cutting mill.

Combustion sleeves consist of a pyroxylin-cellulose web impregnated with trinitrotoluene.

Characteristics of pyroxylin-cellulose fabric:

The content of pyroxylin,% 23-26 Cellulose content,% 23-26 The content of trinitrotoluene,% 48-54 Density, kg / m ³ 1000 ÷ 1320

The component of the disposal product, pyroxylin, has the chemical formula: [C ₆ H ₇ O ₂ (ONO ₂ ) ₃ ] _n . Nitrocellulose with a third degree of substitution, the product of the complete esterification of cellulose with nitric acid. It is a yellowish-white cotton-like thread.

Auto-ignition temperature, ° С 160 ÷ 170

The component of the disposal product, cellulose, has the chemical formula: (C ₆ H ₁₀ O ₅ ] _n . White solid, insoluble in water.

Molar mass, g / mol 324.3 Density, kg / m ³ , ~ 1500 Flash point, ° C 275 Auto-ignition temperature, ° С 420

The component of the disposal product, trinitrotoluene, has the chemical formula: C ₇ H ₅ N ₃ O ₆ . It is a yellowish crystalline substance.

Molar mass, g / mol 227.13 Density, kg / m ³ 1654 Melting point, ° С 80.85 Boiling point, ° С 295 Flash point, ° С 290 The heat of explosion, kJ / kg 4228

Milling magnesium powder according to GOST 7439954. Solid magnesium is a brilliant silver-white metal. In the air, oxidizing, acquires a matte shade. Under ordinary conditions, the surface of magnesium is coated with a strong protective film of magnesium oxide MgO, which is destroyed by heating in air, up to about 600 ° C.

Molar mass, g / mol 24,305 Density, kg / m ³ 1740 Melting point, ° С 651 Boiling point, ° С 1103

Magnesium powders produced by the domestic industry are designated MPF (milling magnesium powder) and are divided into four grades - MPF-1, MPF-2, MPF-3, MPF-4 depending on the dispersion.

Sodium nitrate according to GOST 828-77 - NaNO ₃ is a colorless transparent crystals with an odorless rhombohedral or trigonal crystal lattice. The taste is sharp salty. When heated to 380 ° C, it decomposes with the release of oxygen and sodium nitrite.

Molar mass, g / mol 85 Density, kg / m 2257 Decomposition temperature, ° С 380 Melting point, ° С 308

The invention is illustrated by the following examples of specific performance.

Example 1. Pyrotechnic fireworks composition of the yellow fire is prepared as follows.

Take sodium nitrate, milling magnesium powder, crushed burning sleeves consisting of cellulose, pyroxylin and trinitrotoluene in the following ratio of components, wt. %:

sodium nitrate 40 milling magnesium powder twenty cellulose 10 pyroxylin 10 trinitrotoluene twenty

Components of the composition in grams:

sodium nitrate 2 milling magnesium powder one cellulose 0.5 pyroxylin 0.5 trinitrotoluene one

After mixing, a composition of 5 g is obtained.

The composition is pressed on a press at a pressure of 1000 kgf / cm ² into a cardboard shell with a diameter of 15 mm.

Luminous intensity and burning time are determined by the oscillogram of the combustion of samples, GOST 2389-70.

The color saturation of the flame and the dominant wavelength are determined by the TKA-VD spectrocolorimeter.

Flammability is determined by a known method.

The pyrotechnic composition in the form of a tablet is placed in the recess of the cup of the lower igniter device of the device, moved by a handwheel with a handle and a gear transmission. Smoke powder DRP-2 (0.1 g) is placed in the lower hole of the ignition sleeve, closed with a gauze circle. The igniter sleeve and cup are set at a certain distance, fixed on a scale. The device has safety glasses and exhaust ventilation.

Pressed tablets weighing 0.5 g and a diameter of 10 mm at a pressure of 1000 kgf / cm ² . The distance between the composition and the flame source is set on a scale. The charge of smoke powder is ignited using an incandescent bridge.

At each height, six parallel experiments are carried out and the heights at which six ignitions or six failures are obtained are determined. At these distances spend another 19 tests. If out of 25 tests there will be at least 24 homonymous readings, then the lower and upper flammability limits are considered found.

Chemical resistance is determined on the installation of "Volcano 2005" according to OST B 84-2085-92.

The ignition temperature is determined by OST 3-6613-90.

The determination of sensitivity to shock is performed on the K-44-P copra according to OST V 84-892-74.

The determination of sensitivity to friction is performed on the K-44-Sh head according to GOST RV 50874-96.

Examples 2-5 are similar to example 1.

The compositions according to examples of specific performance and the prototype, as well as their properties: light intensity, specific light sum, color saturation of the flame, the dominant wavelength and flammability of the compositions from DRP-2 are shown in the table.

The chemical resistance of the claimed composition obtained by examples of specific performance, is in the range from 16 to 20 mm RT.article.

The ignition temperature is 208.5 ° C.

Sensitivity to shock is more than 15 J, but less than 17.5 J, the degree of danger is high, the hazard class is 7.

Sensitivity to friction is more than 300 MPa, but less than 340 MPa, the degree of danger is medium, the hazard class is 14.

Elements ("stars") from the declared yellow fireworks composition are made in the form of cylinders with a diameter of 5-30 mm, obtained by a dense pressing of the composition. Charges from pyrotechnic elements stably burn without a shell, guaranteed to provide a glow of the flame at the dominant wavelength. The claimed pyrotechnic fireworks composition of the yellow fire, unlike the prototype, does not require the use of a transitional composition to ignite it (excluding the rolling operation).

From the above data it can be seen that the combination of the features of the claimed pyrotechnic fireworks composition of the yellow fire compared to the composition of the prototype allows to increase the color saturation up to 90%, increase the specific light sum up to 2 times, improve the flammability, obtain radiation composition at the dominant wavelength corresponding to 578 nm

The use in the claimed composition of cellulose, pyroxylin and trinitrotoluene, which are components of the product for the disposal of ammunition (burning cartridges) and / or technological waste in the production of combusting cartridges, allows you to utilize cartridges without burning them at incineration sites and without harming the environment, and to ensure lower cost of pyrotechnic fireworks composition.

Claims (2)

Pyrotechnic fireworks composition of yellow fire containing sodium nitrate, milling magnesium powder, characterized in that it further contains cellulose, pyroxylin and trinitrotoluene in the following ratio, wt.%: sodium nitrate 30-50 milling magnesium powder 15-30 cellulose 7-11.25 pyroxylin 7-11.25 trinitrotoluene 14-22.5