RU2484076C2 - Pyrotechnical ignition-blow-out and ignition-rupture composition - Google Patents

Abstract

FIELD: blasting.

SUBSTANCE: pyrotechnical ignition-blow-out and ignition-rupture composition on the basis of pyroxylin also contains aluminium or titanium powder, as a technological additive - polyvinyl alcohol, and as a functional additive - soot powder with particle size of not more than 100 mcm.

EFFECT: invention is a smokeless pyrotechnical composition based on pyroxylin, with stable burning at lower pressures, igniting and throwing a functional charge of pyrotechnical agent.

Description

The proposed invention relates to thermal compositions containing nitrocellulose as a base, which serve to ignite the functional charges when they are thrown by knocking out of the supporting structure and / or its crushing.

The level of this technical field is characterized by the pyrotechnic composition (smoky gunpowder) described in the book by A.A.Shidlovsky “Fundamentals of Pyrotechnics”. - M.: Engineering, 1973, S. p. 66, 71, which contains (wt.%): 75 potassium nitrate, 15 charcoal and 10 sulfur.

The disadvantage of this pyrotechnic composition is its smokiness, which visually screens the firework effect created by the main functional charge.

Smokeless gunpowder based on pyroxylin (98 wt.%) Is known as a propellant for munitions, containing a technological plasticizing additive - butyl phthalate and functional additives: lead as a combustion catalyst and a stabilizer of chemical resistance - diphenylamine, described in the Chemical Encyclopedic Dictionary. - M .: “Soviet Encyclopedia, 1983, p. 474.

By the technical nature and the number of matching features, this pyrotechnic composition is selected as the closest analogue.

The main disadvantage of the known pyrotechnic composition is its intended use for use as a propellant charge, functioning at elevated (up to several thousand atmospheres) pressure.

In pyrotechnic products (torches, fireworks, cartridges, rockets), where the working throwing pressure is 1-2 orders of magnitude lower than the above, the known pyrotechnic composition is unsuitable, since it burns unstable, until complete attenuation.

The problem to which the present invention is directed is to improve the known pyrotechnic composition of smokeless combustion, suitable for reliable operation as an igniter and propellant in products and systems at pressures up to 100 atm.

The required technical result is achieved by the fact that in the known pyrotechnic igniter-blow-out and ignition-bursting composition based on pyroxylin, including technological and functional additives, according to the invention, aluminum or titanium powder is additionally introduced, polyvinyl alcohol is used as a technological additive, and as a functional additive - carbon black powder with particle sizes of not more than 100 μm in the following ratio of components, wt.%:

pyroxylin 75-95 aluminum or titanium powder 2-20 polyvinyl alcohol 3-5 soot (in excess of 100%) 0.3-0.6.

Distinctive features made it possible to create a fundamentally new smokeless pyrotechnic composition based on pyroxylin, which stably burns at low pressures, igniting and throwing the functional charge of the pyrotechnic means (torch, fireworks, cartridge, etc.).

Moreover, the water-based manufacturing technology of the proposed pyrotechnic composition is safe in serial production.

The metal fuel powder, together with pyroxylin, forms the thermal base of the pyrotechnic composition, which is better ignited and stably burns under reduced pressure, providing the possibility of actively controlling the temperature and its burning rate.

In this case, aluminum or titanium powders form a gas-generating system necessary for throwing the main functional charge of a pyrotechnic tool.

Titanium ignites better than aluminum, but costs more, which should be taken into account in industrial production.

The content of aluminum / titanium powder in the pyrotechnic composition of less than 2 wt.% Is insufficient for the pronounced manifestation of the above service qualities for the intended purpose.

When aluminum / titanium powder is introduced into the pyrotechnic composition, the dispersed phase in the combustion products excessively increases, which reduces the efficiency of its intended purpose.

Polyvinyl alcohol as a binder component, which is introduced into the composition in the form of a 25% aqueous solution, ensures technological safety of production.

In addition, during the combustion of the pyrotechnic composition, polyvinyl alcohol serves as a gas-generating fuel.

An additional advantage of using water-soluble polyvinyl alcohol in the pyrolysis composition based on pyroxylin is that it acts as a stabilizer of chemical resistance. Thus, tests of prototype charges from the proposed composition using the Bergman-Junk test showed a gas release volume of not more than 0.5 ml NO / g with an acceptable rate of 2.5 ml NO / g.

When polyvinyl alcohol is introduced into the pyrotechnic composition of less than 3 wt.%, The components are not completely wetted to granulate safely, eliminating flammability in official use.

The content of polyvinyl alcohol in the pyrotechnic composition of more than 5 wt.% Creates excessive phlegmatization and is ballast.

Highly dispersed soot powder (up to 100 microns) serves as a catalyst and stabilizer of combustion of the pyrotechnic composition at reduced pressures. The dispersion of the carbon black powder is limited for reasons of its guaranteed distribution in the volume of the pyrotechnic composition.

When the soot content in the pyrotechnic composition is less than 0.3 wt.%, The stability of its combustion under reduced pressure is not ensured.

The content in the proposed composition of carbon black above 0.6 wt.% Is impractical due to the increase in the dispersed phase during combustion, which increases the smokiness of pyrotechnic products.

The content range in the pyrotechnic composition of the base, pyroxylin 75-95 wt.%, Is determined by the qualitative and quantitative content of the necessary components and provides stable combustion in pyrotechnic means.

Therefore, each essential characteristic is necessary, and their combination is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the required technical result is achieved not by the sum of the effects, but by a new effect of the sum of the attributes.

The quantitative content of the components of the proposed pyrotechnic composition was calculated according to the mathematical model of the experimental design and experimentally tested on prototypes, which confirms the optimality of their selected ratio.

The proposed pyrotechnic composition is made according to the industry-accepted water technology as follows.

Testing of the technological process was carried out for charges with a diameter of 16 mm and a mass of 1-3 g, according to the test results of which a route technology was developed for the industrial manufacture of charges weighing up to 100 g

Previously, in a paddle mixer in two stages, a solution of polyvinyl alcohol (PVA) is prepared in accordance with GOST 170779-78 in water.

For 4-6 hours, PVA is swelled in cold water, then dissolved at a temperature of 85-90 ° C for 1.0-1.5 hours

The process of preparing an aqueous solution of PVA is significantly reduced when combining dissolution with heating with constant stirring for 2-3 hours.

The finished PVA solution is poured into a container, where it can be stored indefinitely, and is consumed as needed.

The mixing of sequentially introduced components of the pyrotechnic composition is carried out in mixers of the feather and blade types intended for mixing compositions with limited flowability.

First, the calculated amount of powder pyroxylin (OST B84-2373) with an aqueous humidity of 25-30 wt.% And soot powder is loaded, stirring for 30-40 minutes.

Pyroxylin with a moisture content of more than 25 wt.% Is insensitive to shock, thermal and mechanical stress.

Then, metal fuel powder (PP-1 grade aluminum) is introduced in the calculated amount and mixed for 30-40 minutes.

Heating when mixing components is not used.

Next, granulation of the composition is carried out by wiping through sieves with 2 mm holes on wiping drums or in a granulator.

The granular pyrotechnic composition is dried evenly and provides automatic dosing during charge formation.

Granulate is dried to a moisture content of 12-18 wt.% Produced on shelves by natural drying or in drying cabinets.

At a moisture content of less than 12 wt.%, The strength of the resulting charges is insufficient, and at a moisture content of more than 18 wt.% During extrusion, exudation occurs (part of the PVA solution is squeezed out), which leads to a change in the optimized binder content in the finished charge.

Dosing of the prepared composition before pressing, depending on the size of the charges and the design of the press, is carried out by weight or volumetric method.

The charges are formed in the forms of the required size with a closing limiter with a force of not more than 20 MPa.

Depending on the size of the formed charges, rotary or eccentric presses are used, which are used for tabletting press powders for thermosets.

Drying of the finished charges is carried out on table dryers and in ovens at a temperature of up to 70 ° C for 3-10 hours to a moisture content in the range of 1.5-3.0 wt.%.

To significantly reduce the drying time and increase the safety of the process, given the high porosity of the material of the manufactured charges, the drying operation can be carried out together with evacuation.

The use of a polymer water-soluble binder PVA in the proposed pyrotechnic composition, compared with the existing technical level, simplifies the process and reduces production costs, because there is no volatile solvent that does not need to be removed, production using water technology is fireproof and environmentally friendly.

The thermal base of the pyroxylin composition, to which the combustible metal powder is additionally dispersed, is characterized by an increased igniting ability of the igniter propellant made according to the invention for pyrotechnic means.

For tests from the proposed pyrotechnic igniter-knockout and ignition-explosive composition, experimental batches of charges for high-altitude fireworks with a diameter of 105, 195 and 310 mm, for standard signal and firework cartridges, were prepared.

The tests carried out confirmed the steady smokeless combustion of charges from the pyrotechnic composition according to the invention at a short-term (0.005-0.01 s) pressure in the mortar up to 2.6 MPa.

Positive test results of the proposed pyrotechnic composition allow us to recommend it to the Customer for practical implementation in serial and newly developed target products.

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 not known, and taking into account the possibility of industrial serial production of igniter pyrotechnic composition on existing equipment, it can be concluded that the criteria are met patentability.

Claims (1)

Pyrotechnic igniter-knock-out and ignition-explosive composition based on pyroxylin, including technological and functional additives, characterized in that it additionally contains aluminum or titanium powder, polyvinyl alcohol is used as a technological additive, and soot with particle sizes is not used as a functional additive more than 100 microns in the following ratio of components, wt.%:
pyroxylin 75-95 aluminum or titanium powder 2-20 polyvinyl alcohol 3-5 soot (in excess of 100%) 0.3-0.6