RU2542314C1 - Spark-force composition of green fire for fireworks - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: spark-force composition for green fireworks comprises wt %: barium nitrate 54-61, powder of aluminium-magnesium alloy 7-10, spark-generator of mixture of powders of ferrosilicon 9-11 and aluminium powder 5-6, as the colour intensifier - powder of chlorinated paraffin wax 14-16, and as an organic combustible binder iditol 4-3.

EFFECT: obtaining stable, physicochemical stable composition having low sensitivity to mechanical stress, safe and technologically advanced in manufacturing and operation, having high quality of indicators of application in saturation and brightness of the flame colour and having original colourful effect.

2 tbl, 5 ex

Description

The invention relates to pyrotechnics, and more specifically, to pyrotechnic compositions for illumination, entertainment, entertainment and signaling purposes, and can be used for the manufacture of fireworks and salutes of a colorful green flame with an accompanying sheaf of sparks.

The level of this technical field is characterized by the pyrotechnic fireworks composition described in patent RU 2501777 C1, С06В 33/12, С06В 25/00, 2012, which is selected by technical essence and the number of matching essential features as the closest analogue to the proposed composition.

Known pyrotechnic composition contains a flame-oxidizing oxidizing agent - barium nitrate, a color enhancer - polyvinyl chloride, aluminum-magnesium alloy powder as a metal fuel and phenol-formaldehyde resin (iditol) as an organic fuel binder.

The peculiarity of this composition is that, as an additional fuel, it also includes energy-saturated recyclable waste from the pyroxylin production of a burning sleeve, including trinitrotoluene, pyroxylin and cellulose in a mass ratio of 1: 0.5: 0.5, respectively.

Pyrotechnic fireworks composition contains the listed components in the following mass ratio,%:

barium nitrate 49-53 polyvinyl chloride 5-7 aluminum-magnesium alloy powder 10-14 burning sleeve waste material 28-32 phenol formaldehyde resin 0.5-1.5

This composition allows you to dispose of the inevitable technological waste of the production of material of a burning sleeve, eliminating environmentally harmful emissions into the atmosphere during their normal combustion. At the same time, the pyrotechnic composition for fireworks and salutes is characterized by improved destination by the saturation of the flame with a characteristic color due to an increase in the burning rate and the specific yield of the target product.

The disadvantage of the described pyrotechnic composition is an unsatisfactory colorful effect due to low sparking.

The noted drawback is eliminated in the spark-fire composition of colored fire for fireworks according to the patent RU 2192406 C2, C05B 33/06, 2002, paragraphs 1 and 5 of the formula, which, according to the technical nature and the number of matching essential features, are selected as the closest analogue to the proposed composition.

The well-known spark-green fire composition for fireworks contains barium nitrate, metal powders: aluminum-magnesium alloy, magnesium and titanium, nitro film, iditol, a color enhancer - potassium perchlorate and as a gasifier - potassium benzoate in the following ratio of components (wt.%):

barium nitrate 20-32 potassium perchlorate 28-37 potassium benzoate 13-17 Magnesium 9-14 Titanium 6-9 aluminum-magnesium alloy 1.99-2.95 Nitro film 0.01-0.05 Iditol 4-6

In this composition, potassium perchlorate, a high-temperature oxidizing agent, plays the role of a chlorine-containing substance, which contributes to an increase in flame saturation in green, and potassium benzoate serves to generate a high-temperature carrier gas of burning metal particles in the gas zone of the flame, thereby increasing the geometric dimensions of the sparking torch.

The efficiency of sparking during combustion of a known composition is due to the fact that the mixture of titanium powders and aluminum-magnesium alloy is granulated and the granules are covered with a 15% solution of nitrofilm in acetone, followed by proving.

The prepared granules in a flame torch explode, forming an improved sparking effect in a loop of up to 60 cm on tablets of charges with a diameter of 20 mm.

A disadvantage of the known composition is the pale green color of the flame due to the relatively small fraction (20-32 wt.%) Of the color-forming oxidizing agent - barium nitrate, which is limited by the presence of an additional blowing agent necessary for the removal of spark-forming granules into the flame, where the explosion creates spark-spark granules the loop, and the low efficiency of the chlorine-containing color enhancer, the content of which is one third of the total mass, thereby reducing the volume and the intended purpose of the thermal basis of the composition.

In addition, the preparation of a well-known multicomponent pyrotechnic composition, including a scarce and expensive nitro film, is characterized by complex technology, which increases its consumer value.

The technical problem to which the present invention is directed is to increase the effectiveness of the main action of the spark-force composition of the green fire while improving its manufacturability.

The required technical result is achieved by the fact that the known spark-forcing composition for green fireworks, including barium nitrate, aluminum-magnesium alloy powder, a spark former from a mixture of metal powders, a chlorine-containing color enhancer, and as an organic combustible binder iditol, according to the invention, contains ferrosilicon powder as a spark former and aluminum powder, and as a color enhancer, chloroparaffin powder, in the following ratio of components, wt.%:

barium nitrate 54-61 aluminum powder magnesium alloy 7-10 Chloroparaffin 14-16 Ferrosilicon 9-11 aluminum powder 5-6 Iditol 4-3

Distinctive features of the proposed technical solution have expanded the scope of use of the pyrotechnic composition for salutes and fireworks more saturated with bright green color, forming an original colorful effect.

When the thermal base of the proposed pyrotechnic composition is burned, ferrosilicon powder (an alloy of iron and silicon) is heated and forms a sheaf of sparks inside a fluffy plume of burning aluminum powder, which visually forms a complex structured sparkling and luminous extended force of green fire.

The use of green fire in the spark-fire composition as a color enhancer of the powder of chlorine paraffin brand ХП-66Т, a technological related substance, ensured the saturation of the flame in green.

FS-75 brand ferrosilicon powder, when the composition is burned, becomes hot and forms a sheaf of bright sparks that are visually perceived as red-yellow.

The combined functioning of chloroparaffin and ferrosilicon creates a combined spectacular effect of a double color scheme: a red-yellow central sheaf of sparks in the pubescence of a green flame.

Used in the pyrotechnic composition, the powder of chlorine paraffin brand ХП-66Т contains 70-72% of chlorine and is a donor of free chlorine, which is necessary in pyrotechnics to create colored lights.

Chloroparaffin powder - an active oxidizing agent - forms metal chlorides, which emit a monochrome green color, additionally saturating and coloring the functional flame.

Non-toxic chloroparaffin additionally plasticizes the mixture of components of the composition.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a 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.

When the content in the pyrotechnic spark-force composition of barium nitrate is less than 54 wt.%, The flame saturation decreases in green.

When the content in the pyrotechnic spark-forcing composition of barium nitrate is more than 61 wt.%, There is no noticeable improvement in the purpose.

When the content of aluminum-magnesium alloy powder in the pyrotechnic spark-force composition is less than 7 wt.%, The temperature and rate of burning of the charge decrease and the yield of sparks into the flame decreases, the green color of which decreases sharply.

When the content of aluminum-magnesium alloy powder in the pyrotechnic spark-force composition is more than 9 wt.%, Its optimized ratio with the oxidizing agent in the thermally based composition is violated, as a result of which it generates the volume of active chlorine generation and, as a result, the formation of metal chlorides emitting in monochrome, which reduces color saturation of the flame.

The range of the content of chloroparaffin powder in the pyrotechnic composition was optimized experimentally in the selected range in terms of brightness and flame saturation in green and additional plasticization of the composition for pressing operations into functional tablets of equipment items.

When the content of iditol (phenol-formaldehyde resin in the form of an alcoholic varnish) in the pyrotechnic spark-trophic composition is less than 3 wt.% It does not provide uniform coating of the dry components of the composition with adhesive film during mixing, which leads to an anomaly in the physicochemical properties of functional charges, while their pressing efforts are sharply increased .

The content in the pyrotechnic spark-ignition composition of iditol more than 4 wt.% Leads to unproductive increase in the technological time of drying the mixture before pressing tablets.

When the content of ferrosilicon in the pyrotechnic composition is less than 9 wt.%, The formation of sparks in the force plume during the burning of the functional charge is reduced, which reduces the colorful effect.

The content in the pyrotechnic composition of ferrosilicon more than 9 wt.% Is ballast, as it does not provide a noticeable improvement in spark formation.

The composition is prepared according to the technology adopted in the pyrotechnic production by mixing the components in an industrial mixer.

Dry components in a fractional content (wt.%) Are loaded into the mixer: 57.5 ± 3.5 barium nitrate according to GOST 1713, 8.5 ± 1.5 powder of aluminum-magnesium alloy grade PAM-4 (GOST 5593), 5, 5 ± 0.5 aluminum powder grade PP-3T according to GOST 5592, 15 ± 1 powder of chlorine paraffin grade ХП-66Т (STO 0020-3275-212), 10 ± 1 ferrosilicon grade FS-75 according to GOST 1415, which are mixed for 15 -20 minutes for even distribution in volume.

Then, a pre-prepared 50% solution of iditol SF-0112 (GOST 18694) in the amount of 3.5 ± 0.5 wt.% In ethyl alcohol according to GOST 18300 is added to the mixer and mixed for 10-15 minutes for uniform distribution of varnish on the surface of dry components.

After granulating the composition by rubbing the mixture through a measuring sieve, it is dried on trays until the volatile content is not more than 0.6 wt.%, And then the functional charges are pressed for fireworks and salutes.

The quantitative content of the components of the pyrotechnic spark-force composition was calculated according to the mathematical model of the design of the experiment, the optimality of which, upon reaching the required level of destination indicators, was confirmed by full-scale tests of the experimental batch of charges, with the ratio of the components inside the selected limiting values of the mass fraction in the composition, at their borders and outside the declared range limits .

Typical formulations are presented in Table 1.

Table 1 Components COMPOSITIONS, content of components, wt.% one 2 3 four 5 Barium nitrate 58 61 58 55 53 PAM 6 7 8 9 10 Aluminum powder 10 5 6 6 7 Chloroparaffin 13 fourteen fifteen 16 eighteen Iditol 5 four four 3 2 Ferrosilicon 8 9 9 eleven 10

The appointment indicators obtained as a result of testing the experimental compositions according to the invention are shown in Table 2.

Table 2. Characteristics of charges from the compositions of the invention. Characteristics The composition indicators one 2 3 four 5 Luminous intensity, cd 5000 5300 5300 6500 6800 Wavelength nm 550 550 555 547 523 Color purity,% 69 67 70 68 68 Burning rate, mm / s 2.0 2.1 2.1 2.2 2.2

The obtained test results of the prototype charges showed that the 2-4 charges on the main technical characteristics fully meet the specified requirements and the appointment of spark-colored colored fire tablets for fireworks and salutes.

Composition No. 5 is characterized by a pale flame color due to the relatively low radiation wavelength of the aerodispersed formation during combustion.

Combustion of composition No. 1 occurs at a reduced speed, which determines a decrease in the light intensity of the flame during charge burning, an inexpressive force is formed, which reduces the colorfulness and saturation of the fireworks.

The proposed composition is chemically stable and has sufficient physico-chemical stability, while the sensitivity of the composition to mechanical stress is low, which is safe and technologically advanced in industrial production and operation.

The structural components of the composition are available and have a wide raw material base.

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 unknown, and taking into account the possibility of industrial serial production of spark-fire pyrotechnic composition of green fire, we can conclude that the patentability conditions are met.

Claims (1)

The spark-fire composition of green fire, including barium nitrate, aluminum-magnesium alloy powder, a spark generator from a mixture of metal powders, a chlorine-containing color enhancer and iditol as an organic combustible binder, characterized in that it contains ferrosilicon powder and aluminum powder as a spark generator, and as color enhancer - chloroparaffin powder in the following ratio of components, wt.%:
barium nitrate 54-61 aluminum-magnesium alloy powder 7-10 chloroparaffin 14-16 ferrosilicon 9-11 aluminum powder 5-6 iditol 4-3