RU2549865C1 - Pyrotechnic composition of colour of fire - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: pyrotechnic composition for colour fire for fireworks and celebratory gunfires comprises colour-generating nitrate oxidizer - barium or strontium nitrate 60-68 wt %, magnesium powder 13-15 wt %, polyvinyl chloride as a colour enhancer 13-15 wt %, PTFE-4 1-3 wt %, and phenol-formaldehyde resin 5-7 wt %. Phenol-formaldehyde resin is used in the form of 70% solution in alcohol-acetone mixture of 70:30, respectively. The achieved result consists in improvement of quality indicators of the purpose on saturation and brightness of the flame colour, which provides a high colourful effect of fireworks, celebratory gunfires, increases the range of visibility and distinctiveness of colour signals.

EFFECT: optimisation of quantitative composition and hardening of pyrotechnic articles, compressed at low specific loads of technological composition safe in production and processing, with a significant reduction of external friction forces when hard pressing of functional tablets.

2 cl, 2 tbl, 5 ex

Description

The invention relates to pyrotechnic compositions, including finely dispersed metal fuel and a color-forming nitrate oxidizing agent, namely, pyrotechnic compositions of colored fire used in the manufacture of fireworks and salutes, for conducting entertainment and entertainment events.

The level of this technical field is characterized by pyrotechnic compositions: green light described in the invention SU 267407, С06В 33/04, and red light according to the patent RU 2039727 C1, C06B 33/14, 1995.

The first of these analogues contains (wt.%): 66 ± 3 barium nitrate, 10 ± 2 powder of aluminum-magnesium alloy, 10 ± 2 aluminum powder, 9 ± 2 hexachlorobenzene and 5 ± 1 phenol-formaldehyde resin (iditol).

The pyrotechnic composition of the green fire described includes, as a color enhancer, prohibited harmful hexachlorobenzene, the use, production and transportation of which has been discontinued.

The second composition contains strontium nitrate (strontium nitrate), powders of aluminum-magnesium alloy (PAM) and magnesium, polyvinyl chloride (PVC), magnesium carbonate, strontium carbonate, phenol-formaldehyde resin (iditol) and graphite, in the following ratio of components (wt.%):

magnesium 6-22 PAM 5-11 iditol 6-13 PVC 7-11 magnesium carbonate 2-8 strontium carbonate 0.5-5 graphite 0.05-0.5 strontium nitrate rest

A feature of the functioning of this composition is that magnesium particles burn in the gas phase and do not form sparks, and narrow and short tracks of burning particles of aluminum-magnesium alloy disappear within the flame flame colored in red and do not form a spark force.

The pyrotechnic composition provides a clearly visible tracer trace of the projectile’s flight, the charge is easily ignited and functions in the temperature range of ± 60 ° C, and is characterized by the safety of production and operation.

However, when this composition is burned, a large number of burning toxins are formed, falling on the earth's surface, which makes it impossible to use it in fireworks and salutes.

In addition, the multi-stage technology for the production of pyrotechnic elements from this composition significantly increases the complexity of manufacturing and the cost of fireworks.

In this pyrotechnic composition of colored fire, the hexachlorobenzene color enhancer is replaced (compared with another analog) with an environmentally friendly chlorine-containing compound - polyvinyl chloride while maintaining the lighting technical, physico-chemical characteristics of the functional charge from it at a given high level.

The composition containing hexachlorobenzene has a solid crystalline structure, so the pressed elements, after stress relief, retain their volume, since there are no sources of internal stress that could lead to destruction of the element structure.

When pressing elements from a composition including polyvinyl chloride, polymer particles undergo elastic compression and, when pulled out of a press tool, relaxation forces tend to return them to their original state. As practice has shown, the adhesion forces between particles of the components of the composition in the pressed pyrotechnic element and the efforts of the binder are not enough so that it does not collapse under the action of internal stresses.

More advanced is the pyrotechnic composition of colored fire for fireworks, described in patent RU 2501777 C1, C06B 33/12, C06B 25/00, 2012, which is selected by technical essence and the number of matching features as the closest analogue to the proposed composition.

The well-known pyrotechnic composition of colored fire for fireworks contains a flame-colored nitrate oxidizing agent (barium or strontium nitrate), metal fuel - aluminum-magnesium alloy powder, a color enhancer - polyvinyl chloride, as an organic fuel binder phenol-formaldehyde resin (iditol) and utilizing waste material trinitrotoluene, pyroxylin and cellulose, in the structure of the thermal base, in the following ratio of components, wt.%:

nitrate oxidizing agent 49-53 PVC 5-7 PAM 10-14 burning case material 28-32 iditol 0.5-1.5

The advantage of this composition is that the components of the material of the burning sleeve during combustion emit a large amount of gaseous products with a significant decrease in the concentration of condensed products of combustion of the composition and a decrease in the amount of smoke.

A continuation of the advantages of the known composition is an inherent disadvantage, which consists in a significant reduction in the saturation of the corresponding flame color due to the presence of a large number of oxygen-containing combustion products: trinitrotoluene, pyroxylin and cellulose.

The technical problem to which the present invention is directed is to increase the quality indicators for the purpose of high saturation and brightness of the color of the flame formed during the burning of pyrotechnic products from a modernized environmentally friendly pyrotechnic composition of colored fire, the operation of which provides an increased colorful effect of fireworks, salutes or increases the range and distinguishability of color signals.

The required technical result is achieved by the fact that the known pyrotechnic composition of colored fire for fireworks and salutes, including a color-forming nitrate oxidizing agent, magnesium powder, polyvinyl chloride as a color enhancer and phenol-formaldehyde resin, according to the invention, additionally contains fluoroplast-4, in the following ratio of components, wt. %:

barium or strontium nitrate 60-68 magnesium powder 13-15 polyvinyl chloride 13-15 ftoroplast-4 1-3 phenol formaldehyde resin 5-7,

moreover, phenol-formaldehyde resin is used in the form of a 70% solution in an alcohol-acetone mixture, respectively 70:30.

Distinctive features of the proposed technical solution provided hardening of pyrotechnic products, pressed at reduced specific loads from a modernized composition, technological and safe in production and processing due to a significant reduction in external friction forces during dull pressing of functional tablets.

An additional introduction to the pyrotechnic composition of fluoroplast-4 increased the structural strength of compacted charges to the required level of exploitation of salutes and fireworks, which experience 10-15 g overload during a shot.

The introduction of the phenol-formaldehyde resin into the mixture of the components of the invention in the form of an alcohol-acetone solution forms a technological film when the dry components are mixed, ensuring their stickiness upon drying and the specified structural strength of the pressed charges from the proposed composition.

The proportion of ethyl alcohol and acetone in the solvent as 70:30 was determined experimentally to achieve the required varnish consistency for the best distribution in the mixture volume, forming a thin adhesive film on the powder components.

Polytetrafluoroethylene (fluoroplast-4) is characterized by a high degree of crystallinity (90-95%).

In the initial state, fluoroplast-4 is a loose fibrous powder, which softens under pressure, while maintaining sufficient strength characteristics, and absorbs the internal stresses arising in the formed pyrotechnic element that arise after pressure is relieved.

Thus, two halogen-containing components (fluoroplast-4 and phenol-formaldehyde resin) well plasticize the mixture of components of the proposed composition without reducing the monochrome radiation of the flame in the red (composition containing strontium nitrate) or in the green (composition containing barium nitrate) region of the visible spectrum.

When the content of barium or strontium nitrate in pyrotechnic compositions is less than 60 wt.%, The flame saturation decreases in green or red, respectively.

When the content of barium and strontium nitrates in pyrotechnic compositions is more than 68 wt.%, No noticeable improvement in lighting performance is observed.

When the content of magnesium powder in pyrotechnic compositions is more than 15 wt.%, The temperature and the burning rate of the elements increase, but the flame saturation noticeably decreases in green or red, respectively.

The range of the content of polyvinyl chloride powder in the pyrotechnic composition of 13-15 wt.% Was optimized experimentally in the selected range according to the dominant wavelength and color flame saturation.

When the fluoroplast-4 content in the pyrotechnic composition is less than 2 wt.%, The densified functional elements are destroyed when fireworks are triggered, which are non-functional, since they do not form a given colorful picture.

The increase in the content of fluoroplast-4 more than 3 wt.% Reduces the flammability of elements and affects the entertainment of fireworks.

The flame-colored pyrotechnic composition contains the optimum amount of phenol-formaldehyde resin, which acts as a binder, which, when mixed, combines all components into a homogeneous mixture.

When processing the compositions into elements, the presence of a binder allows to obtain uniform particles during granulation, to avoid separation of the compositions during storage and to improve the pressing conditions of the elements.

Phenol-formaldehyde resin, being an organic compound, also serves as a fuel in the composition during combustion of the element.

The introduction of a phenol-formaldehyde resin in the form of an alcohol-acetone solution into the mixture of the components of the invention ensures that the dry components of the composition are uniformly coated with a varnish film when mixed, especially magnesium powder, which significantly reduces its sensitivity to mechanical stress and increases the safety of the mixture during processing.

Therefore, each essential feature is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in signs of disunity, that is, the technical task posed is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

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

Components in mass content (wt.%) Are loaded into the mixer: 64 ± 4 barium nitrate or strontium nitrate, 14 ± 1 magnesium powder of MPF-3 grade, 14 ± 1 polyvinyl chloride suspension grade PVC-S-7058-M and 2 ± 1 fluoroplastic -4, after which they are mixed for 15-20 minutes.

Then, a pre-prepared solution of phenol-formaldehyde resin brand SF-0112 in an amount of 6 ± 1 wt.% In an alcohol-acetone mixture of 5 ± 0.5 wt.% Is then loaded into the mixer, and then stirred for 7-10 minutes to distribute the resin evenly component surfaces.

According to a variant of the technology for preparing the composition, magnesium powder and the prepared varnish solution of phenol-formaldehyde resin are pre-loaded into the mixer, which are mixed for 5-10 minutes.

Then, the remaining dry powder components are loaded into the mixer in measured proportions and the composition is mixed for 10 minutes.

The obtained mixture was dried on trays to a volatile content not higher than 0.5 wt.%, And then sent to a pressing pyrotechnic charges with a relatively low pressure of 200-300 kgf / cm ^2.

The optimal quantitative composition of the proposed mixture of components of the pyrotechnic composition of colored fire was calculated according to the mathematical model of the experimental design and verified by testing prototypes of charges made with different mass ratios of components to determine the level of destination indicators: within the range of components, at its borders and outside the optimized ranges .

Typical compositions tested in the structure of pyrotechnic charges are shown in Table 1.

Indicators of the purpose of the pyrotechnic compositions of colored fire according to the invention are presented in Table 2.

From the tables it follows that compositions 2-4 provide the necessary technical requirements for items of equipment for fireworks and salutes:

- the reliability of ignition and combustion of elements in air;

- according to lighting specifications;

- according to the actual spectacular effect;

- by burning time;

- on physical and chemical resistance and physical stability;

- the absence of damage when the products are triggered;

- by expiration date.

Composition No. 1 in terms of lighting performance and burning time is close to the compositions of the invention, but does not provide the necessary strength of the elements when fireworks are triggered in the air.

In the composition No. 5, the introduction of fluoroplast-4 avoided the destruction of elements in the air and significantly increased the burning rate and light intensity, but the saturation and purity of the color of the flame were lost.

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 unknown, and taking into account the possibility of industrial serial production of a colored fire pyrotechnic composition for fireworks in an existing production, we can conclude compliance with patentability conditions.

The results of the experimental verification of the technical solution according to the invention allow us to recommend the proposed pyrotechnic composition for practical equipment of fireworks, salutes and color signals.

Claims (2)

1. The pyrotechnic composition of colored fire, including a color-forming nitrate oxidizing agent - barium nitrate or strontium nitrate, metal fuel powder, polyvinyl chloride as a color enhancer and phenol-formaldehyde resin, characterized in that it additionally contains fluoroplast-4, and contains magnesium powder as a metal fuel in the following ratio of components, wt.%:
barium or strontium nitrate 60-68 magnesium powder 13-15 polyvinyl chloride 13-15 ftoroplast-4 1-3 phenol formaldehyde resin 5-7 2. The pyrotechnic composition according to claim 1, characterized in that the phenol-formaldehyde resin is used in the form of a 70% solution in an alcohol-acetone mixture, respectively 70:30.