RU2630555C1 - Fire-fighting pyrotechnical composition - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: inflammable pyrotechnic composition has a thermal base consisting of an oxidizing agent - potassium nitrate and a metallic fuel - an aluminium-magnesium alloy powder, a sparking agent - ferrosilicon, an organic fuel binder - a rosin solution in linseed oil and a technological additive in the form of a mixture of graphite pyrotechnic with iditol powder, corresponding to the ratio of components.

EFFECT: composition has high technical characteristics of the flammable action due to activation of its combustion and increasing the temperature of the dispersed phase in the generated aerosolized formation, with simplification of the technology of its preparation.

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Description

The invention relates to pyrotechnics, and more particularly to igniter compositions initiating the ignition and burning of functional equipment of various special items and ammunition, which contains finely divided metal in combination with an oxygen-containing substance that is not explosive.

The level of this technical field is characterized by the igniter pyrotechnic composition described in patent RU 2354634 C1, C06B 33/04, 2004, which contains, by weight. %: 69 potassium nitrate (potassium nitrate), 9 powder of aluminum-magnesium alloy, 9 phenol-formaldehyde resin SF-0112 (iditol) in the form of a 25% solution in a mixture of ethyl alcohol and acetone in equal proportions and 9 spark-forming magnesium and iron powders.

The disadvantage of this composition is the narrow-focus orientation of use only in closed shells, with poor functional reliability.

More perfect is the igniter pyrotechnic composition for initiating the charges of the main equipment of various products, which is described in patent RU 2554634 C1, С06В 33/12, С06С 9/00, 2013, which is selected as the closest analogue by the number of matching features and technical nature the proposed composition.

Known igniter pyrotechnic composition contains potassium nitrate, aluminum-magnesium alloy powder, spark-forming ferrosilicon, iditol and a combustion activator - thiourea, in the following ratio of components (wt.%):

potassium nitrate 62-70 aluminum-magnesium alloy powder 9-11 ferrosilicon 9-11 thiourea 4-6 iditol 8-10

The known composition, sensitive to the initiating heat pulse, is characterized by high ignition efficiency of the main charge, which is ignited, stably burns and detonates due to distributed point sources of energy - hot metal particles.

The content of metal fuel in the form of an aluminum-magnesium alloy powder increased the calorific value of the composition, temperature, and its burning rate, which allowed the use of inert ferrosilicon FS-75 as a spark generator, containing finely dispersed iron particles, burning during the composition burning, forming a sheaf of sparks that serve as point sources of thermal sources energy in a directed force muzzle, providing an effective ignition of the main charge.

Potassium nitrate in combination with aluminum-magnesium alloy (PAM) powder forms the thermal basis of the pyrotechnic composition in a balanced oxygen-mass reaction ratio, which is sensitive to thermal energy momentum.

The aluminum structurally bonded in the PAM alloy has increased reactivity, since it is not subject to oxygen oxidation, and magnesium, losing excessive activity in the alloy, increases the combustion rate of the igniter composition, increased calorific value and the specific yield of gaseous products of its oxidation.

Sulfur-containing thiourea serves as an activator of combustion of the thermal base.

Iditol in the form of an alcoholic solution serves as a technological binder of the structural powder components of a pyrotechnic composition suitable for forming charges by compression, where it performs the functions of a frame former.

A continuation of the noted advantages of the known composition are inherent disadvantages.

The long duration of the manufacturing process of the composition, caused by the prolonged removal of volatile and moisture solvent - phenol-formaldehyde resin, which is carried out by low-temperature drying, increases the consumer cost of the composition.

Due to the excess oxygen balance of the thermal base, insufficient gas generation occurs for the active removal of hot combustion products, which reduces the dispersed phase in the functional aerodisperse formation, reducing the effectiveness of the intended action.

The technical problem to which the present invention is directed is to increase the combustion activity of the igniter composition, while simplifying the technology for its preparation.

The required technical result is achieved by the fact that the known igniter pyrotechnic composition, the thermal base of which consists of an oxidizing agent - potassium nitrate and metal fuel - aluminum-magnesium alloy powder containing spark-forming ferrosilicon, iditol, an organic fuel binder and processing aid, according to the invention, includes as organic combustible binder solution of rosin in oliph, and the technological additive in the form of a mixture of pyrotechnic graphite with iditol powder , In the following ratio (wt.%):

potassium nitrate 58-64 aluminum-magnesium alloy powder 9-11 ferrosilicon 9-7 iditol powder 13-15 pyrotechnic graphite 2-3 rosin solution in drying oil 3-6

Distinctive features of the proposed technical solution increased the technical characteristics of the flammable action during combustion of the proposed composition due to the intensification of its combustion and increase in the hot dispersed phase in the generated aerodisperse formation, which increased the effectiveness of the compressed igniter tablet from the modernized composition for the intended purpose.

Full-scale and bench tests of prototypes of igniter tablets from the proposed pyrotechnic composition showed its suitability for effective and reliable initiation and stable ignition of the main charges of the standard equipment gear.

The proposed range of the ratio of oxidizing agent (potassium nitrate) and metallic fuel (PAM) in the thermal basis of the pyrotechnic composition is optimized for dispersing solid hot particles into a functional aerodisperse formation.

The exclusion of the technological solvent from the structure, replacing it with an available solution of rosin in drying oil, simplified the process, which significantly reduced its duration, while dry iditol powder with an increased mass fraction significantly increased the combustion of the thermal base, virtually eliminating slag formation.

A feature of the proposed technological binder (organic fuel) - a solution of rosin in drying oil - is that it is entirely a structural fluid component of the composition, forming an adhesive film on the powder components of the composition when mixed, without the presence of an additional solvent, which must then be removed.

As an organic combustible binder, a 25% solution of gum rosin in oil olif, widely used in pyrotechnics, is used, which is preferred for use in the pyrotechnic composition optimized according to the invention. This binder is prepared from industrially produced substances, available both relatively cheap and non-toxic, ensures the safety of the manufacturing process for the production of an igniter composition.

Pine rosin according to GOST 19113-84, industrially obtained from gum resin by extraction of turpentine, having technical preference over tal and extraction rosin, is used in the present composition.

From the existing range of drying oils (artificial, synthetic, alkyd), drying oils based on vegetable oils, in particular natural and oxol, were tested, moreover, natural oil from linseed oil was selected for the preparation of an organic fuel binder mixed with rosin of pine oil.

Functionally, the effect of this binder in the structure of the pyrotechnic composition is determined by the improvement of the flammability of charges, during the combustion of which the organic combustible binder is completely thermally decomposed, increasing the volume of exhaust gases transporting the red-hot dispersed phase of the fire torch.

When the content in the pyrotechnic igniter composition of the solution of rosin in drying oil is less than 3 wt. % the necessary technological properties are not ensured: the distribution of the components during mixing is uneven due to clumping, which makes it difficult to compress the composition into durable charges, which do not fully meet the technical requirements.

When the content in the pyrotechnic igniter composition of the solution of rosin in drying oil is more than 6 wt. % there is no improvement in technological and service characteristics, while the frame and strength of the pressed charges are not ensured.

The use of dry powder iditol increased content of 13-15 wt. % is dictated by the need to increase the speed and temperature of combustion of the thermal base of the composition and associated gas formation, as a transport means of the dispersed phase, which functions as distributed sources of thermal radiation for the effective initiation of ignition and stable combustion of the main charge.

When the content of iditol powder is less than 13 wt. % its burning rate decreases, the flammable and incendiary effect of the main charge worsens.

The content in the igniter pyrotechnic composition of dry iditol is more than 15 wt. % is ballast.

Pyrotechnic graphite grade P in combination with dry powder iditol forms a mixture of technological additives that improves the compressibility of the igniter pyrotechnic composition into high-strength charges, which makes it possible to use it in products with high pulsed load.

Pyrotechnic graphite as a technological additive in an amount of 2-3 wt. % provides flowability to the proposed composition for volumetric dosing and, being dispersed in a solution of rosin in oliph, enhances the flammability of the charge due to its sparking during combustion.

When the content in the composition (in a mixture with dry iditol) of graphite in an amount of less than 2 wt. % uniformity of the composition is not ensured and, therefore, ignition charges are characterized by anisotropy of service characteristics.

The increase in the mass fraction in the mixture of technological additives of graphite is more than 3 wt. % does not create a noticeable improvement in the properties and qualities of the composition and charges from it.

When the content in the igniter pyrotechnic composition of ferrosilicon is less than 7 wt. % insufficient number of sparks is formed for stable ignition of the main charge and active incendiary action at the place of operation of the product.

The content in the igniter pyrotechnic composition of ferrosilicon is more than 9 wt. % is excessive and reduces the effectiveness of the main action as directed.

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 signs of disunity, that is, the technical problem posed in the invention is not solved by the sum of the effects, but by a new effect of the sum of the attributes.

Comparison of the proposed technical solution with the closest prior art analogues did not reveal an identical match of the totality of the essential features of the invention.

The proposed differences in the ignition composition, which do not directly follow from the statement of the technical problem, are not obvious to a specialist in pyrotechnics.

The manufacture of igniter charges from the composition according to the invention can be carried out in series at the existing pyrotechnic production.

From the foregoing, we can conclude that the invention meets the conditions of patentability.

The quantitative ratio of the components of the proposed igniter pyrotechnic composition was calculated according to the mathematical model of the planning of the experiment and was confirmed by the results of an experimental verification of field samples of charges.

Typical test compositions in which the components are contained in the proposed ranges of the mass ratio, outside the optimized ranges and at the borders of the quantitative content of the components according to the invention, are presented in the table.

As a result of the tests, it was found that compositions 2-4, when initiated by force from a regular capsule or by an adjacent stopin flame, provided ignition and stable ignition of the pressed charges of the main equipment of products of various designs and different calibers.

Composition 1 is characterized by unstable ignition of the main charge of the product due to its low burning rate.

When burning pyrotechnic tablets from a non-technological composition 5 having insufficient calorie content, unsatisfactory combustion parameters develop in terms of speed and temperature, which are lower than those required for an effective main action for the intended purpose.

The proposed igniter composition is prepared according to the technology adopted in the pyrotechnic industry for mixing components in any industrial mixer.

A measured amount of powdered components (wt.%) Is added to the mixer: 61.5 ± 1.5 potassium nitrate, 10 ± 1 powder of aluminum-magnesium alloy of the PAM-3 and PAM-4 grades, 8 ± 1 ferrosilicon of the FS-75 and 2 grades , 5 ± 05 graphite grade "P", which is stirred for 7-10 minutes.

Then add 14 ± 1 wt. % iditol powder grade SF-0112 and 4 ± 1 wt. % solution of gum rosin in natural oil oil, which is mixed for 10-15 minutes to evenly distribute them in the volume with the formation of an adhesive film on the surface of the powder particles of the composition.

Functional igniter tablets (charges) are formed from the obtained plasticized mixture of components of the pyrotechnic composition by pressing, which are characterized by high sensitivity to thermal energy impulse and dynamic generation of flame force during burning, in which incandescent solid particles are distributed, which ensures reliable ignition of the main equipment of the products and its stable combustion.

The pyrotechnic composition of the present invention is technologically advanced for the mass production of igniter charges that initiate the main equipment of various kinds of products.

Claims (2)

An igniter pyrotechnic composition, the thermal base of which consists of an oxidizing agent - potassium nitrate and metal fuel - an aluminum-magnesium alloy powder containing spark-forming ferrosilicon, iditol, an organic fuel binder and a technological additive, characterized in that it includes rosin in an organic fuel binder drying oil, and a technological additive in the form of a mixture of pyrotechnic graphite with iditol powder, in the following ratio of components (wt.%): potassium nitrate 58-64 aluminum-magnesium alloy powder 9-11 ferrosilicon 9-7 iditol powder 13-15 pyrotechnic graphite 2-3 rosin solution in drying oil 3-6