UA74558C2 - A method for making nitrocellulose base of consolidated charges and a consolidated missile charge based thereon - Google Patents

Abstract

A method for making nitrocellulose base of consolidated charges involves nitration of fine-fibered cellulose raw stock till achieving a given content of nitrogen in the half-product, withdrawing admixtures and moisture excess from the fibrous mass of nitrocellulose, crushing the fiber and transfer of dispersed half-product for making charges. To reduce the danger of making unplasticized nitrocellulose base and obtaining consolidated charges with ôfeltedö structure the fibrous mass on nitrocellulose before grinding is dried and thereafter grinded to obtaining a polydisperse mixture of fibrous particles, and from this mixture consolidated charges are formed. Proposed is consolidated missile charge based thereon .

Description

Description of the invention

The invention relates to the technology of manufacturing a nitrocellulose base of consolidated charges for 2 mainly barrel firearms (hereinafter referred to as SVP) such as hunting rifles, construction and installation guns (in particular, for driving nails, dowels and railway scaffolding, etc.), means of throwing products from signal or pyrotechnic warehouses , sporting rifles and pistols of arbitrary calibers and to the structure and physical and chemical properties of consolidated mainly projectile charges on such a basis.

It is common knowledge that projectile charges for SVP are products of mass production and consumption. Usually, they have the form of fixed mass doses of suitable granular nitrocellulose (mainly pyroxylin) powder. These doses are either prefilled inside unitary cartridge cases, or can be marketed in standard packages if consumers equip the cartridges themselves or if the design of some SVP provides for separate loading.

Accordingly, projectile charges must satisfy a complex of systematically growing difficult compatible requirements, the most important of which are: the greatest possible safety of production, storage and use, availability to a wide range of consumers, the greatest possible ballistic efficiency, estimated (other things being equal) by the value of the initial flight speed of the projectiles bodies (shot, bullets, nails or dowels, projectiles, etc.), which can be developed at a given maximum permissible value of the pressure of powder gases in the barrel of a specific SVP, and the greatest possible stability of ballistic indicators from shot to shot.

In addition, the chemical stability of projectile charges during long-term storage of ammunition equipped with such charges and the degree of dependence of ballistic characteristics on ambient temperature can be taken into account. with

Next, the technology of manufacturing charges should be simple and safe for personnel and the environment, and Ge) require as little resource consumption as possible.

The requirements for projectile charges and their manufacturing methods are closely related. However, so far only their separate implementation is not particularly difficult.

Thus, the traditional methods of cellulose nitration and mass production of loose powders from plasticized nitrocellulose have long been developed in detail and are now widely known. Strict security measures are provided for each operation of these methods. Therefore, spontaneous explosions of semi-finished products or finished products in production, storage and use are possible only in case of violation of standard operating modes | see, for example, part II of the book "Gunpowder and Charges": Budnikov M.A., Levkovych N.A., Bnistroe I .IN. etc. "Explosive substances and gunpowder". - Moscow: Gos. "Kk izd-vo defense industry, 1955). 325 Further, the use of cellulose of various origins (especially cotton and, sometimes, wood), regulation of the degree of its nitration, the use of plasticizers, stabilizers (usually diphenylamine), phlegmatizers, flame retardants, and other additives well known to specialists made it possible to create a wide range of granular nitrocellulose gunpowder Taking into account the degree of nitration of cellulose and the types of plasticizers, they are usually divided into pyroxylin, ballistic and cordite (see Horst A.G. Gunpowder and explosive substances. Z 40. Moscow: "Mashinostroenie", 1972, pp. 146-165 and, especially , pp. 147-148). c In particular, pyroxylin powders are made from nitrocellulose plasticized with volatile solvents

With" nitrogen content, as a rule, more than 1295; ballistites - from koloxylins plasticized by non-volatile or non-volatile solvents with a nitrogen content usually slightly less than 1295, and cordites - from both pyroxylins and koloxylins with the use of mixed plasticizers.

However, the gravimetric mass of granular free-flowing nitrocellulose powders, which are usually equipped with ammunition for SVP, is in the range of 0.6-0.9 g/cm Z. Therefore, with a limited volume of unitary cartridges

Sg" cartridges will certainly not be possible: firstly, to ensure such energy intensity of projectile charges that with the specified values of the working volume of the barrel, the maximum pressure of powder gases in it and the mass of the fired body or the required 1 50 speed of this body at the moment of departure from of the specified channel would make it possible to closely approach the limit value of the ballistic coefficient of useful action for a specific SVP, and secondly, to manipulate within wide limits the density and - at a given limit volume - the mass of the metal charge.

The traditional way of mitigating these disadvantages is based on the use of consolidated charges. 59 For this, tablets or briquettes are pressed from granular nitrocellulose powders. Next, the necessary ones are collected by mass

HF) projectile charges. They usually include one tablet or one briquette, but sometimes may include several such "elements" of the same or different geometric shape and/or size.

At the same time, the efforts of inventors are usually aimed at finding such geometric forms of tablets or briquettes that, in their opinion, should take into account the features of equipment and the use of ammunition for SVP or specific types.

For example, from patent Mo2260765, publ. September 5, 1975 EC known projectile charge in the form of a tablet made of pressed plasticized gunpowder. Such a tablet, if desired, can have cutouts, notches or through holes.

The use of tablets makes it easier to equip ammunition, and varying the shape of the tablets allows you to influence the kinetics of initiation of combustion and combustion of consolidated projectile charges of different mass.

Also known is the patent (5 3,911,825 publ. 10/14/1975) in which a propellant charge is pressed from plasticized gunpowder in the form of an axisymmetric (for example, cylindrical or prismatic) briquette with a cavity in the middle part for laying the initiating charge of the BP.

When equipping ammunition with at least two such briquettes, the independent initiation of combustion of each of them contributes to the rapid combustion of the entire component metal charge. But even when using single briquettes of the described type, detonation of the metal charge in the chamber or the part of the SVP barrel channel connected to it is not excluded.

A more recent example can be a composite projectile charge. It includes at least one 70 pressed powder briquette and at least one portion of bulk powder (patent OA 37404 A publ. 05/15/2001.

This charge extends the limits of adjusting the ballistic characteristics of ammunition for hunting weapons.

However, consolidated elements of projectile charges or solid consolidated charges made on a granular nitrocellulose base, as shown above in several specific examples, only externally have the 7/5 Appearance of solid monoliths with a smooth surface. Inside them, the boundaries of individual powder grains are clearly defined on fractures or cuts. Therefore, immediately after the initiation of combustion, propellant charges pressed from ordinary gunpowder disintegrate into unequally sized parts of an irregular shape and further into the original powder grains, which does not exclude the instability of combustion and the detonation of the charge in the chamber or the part of the barrel channel connected to it.

Attempts to overcome this disadvantage of conventional consolidated charges, according to the data available to us, have not yet been successful.

Even the closest to the proposed method of manufacturing nitrocellulose base of consolidated charges for SVP Ipatent OA 21749 A publ. 01/20/1998| which was created by the same inventors, provides, although according to a simplified scheme, the production of granular stabilized pyroxylin powder and its transfer to the production of consolidated charges. Taking into account the well-known technology for obtaining pyroxylin, this method includes: (1) nitration of thin fibrous cellulose raw materials until reaching the specified concentration of nitrogen in i) semi-finished nitrocellulose, which has the appearance of a wet fibrous mass, (2) washing the fibrous mass of nitrocellulose with hot water to remove the remains of the nitration mixture and of by-products of low molecular weight nitration, (3) grinding of the washed wet fibrous mass of nitrocellulose to obtain a suspension of dispersed particles in an aqueous medium, (4) final washing of ground nitrocellulose, (5) dehydration and cleaning of ground nitrocellulose from accidental mechanical impurities, (6) ) if desired - modification of gunpowder by the introduction of a suitable stabilizer, in particular diphenylamine, and/or a suitable phlegmatizer and/or other additive; (7) granulation of the original (after operation 5) or modified (after operation 6) ground nitrocellulose to obtain granular powder as a nitrocellulose base; (8) transfer of this basis to the production of consolidated charges with a given mass and shape.

This method does not include such traditional operations as plasticization of crushed nitrocellulose with an alcohol-ether mixture, extrusion, preliminary drying and cutting of blanks to obtain granular powder, final drying of powder particles, their sorting by size, soaking in water for extraction of solvent residues and final drying to the specified residual humidity. ;" However, even the simplified and therefore accelerated and less expensive in terms of material and energy resources conversion of fibrous nitrocellulose into granular powder as the basis of consolidated charges does not lead to a noticeable increase in fire and explosion safety of production. Therefore, in case of violation of the standards of safe work -I, damage to personnel and the environment is possible.

From the same patent OA Mo21749 A, the closest to the proposed consolidated projectile charge is known in the form of at least one briquette with a predetermined geometric shape and a weight of 0.2-2.0 g. Briquette c is pressed from the granular powder obtained by the described method and has an average density in the range of 50. 0.75-1.2 g/cm Z. i-th Long experiments with such charges on a granular nitrocellulose base showed that they after (Che initiation not always they burn evenly and often disintegrate, prematurely turning into a gas-powder mixture that can detonate in the chamber or the part of the SVP barrel channel connected to it.

The invention is based on the task of reducing the number and changing the sequence of operations to create an even safer method of manufacturing such a non-plasticized nitrocellulose base that would allow pressing from it consolidated mainly projectile charges that would always maintain integrity during initiation and

F, in the process of burning. The problem is solved by the fact that in the method of manufacturing the nitrocellulose base of consolidated charges, which includes: - nitration of thin fibrous cellulose raw materials until the specified concentration of nitrogen is reached in the semi-finished nitrocellulose, which has the form of a wet fibrous mass, - the removal of nitration mixture residues, by-products of nitration with low molecular weight , random mechanical impurities and excess moisture from the specified mass, crushing of nitrocellulose fibers, - if desired, introduction of at least one modifying additive into the nitrocellulose mass, and 65 - transfer of the obtained nitrocellulose base as such or after introducing at least one modifying additive into it for the manufacture of consolidated charges , according to the invention

- after removal of the nitration mixture residues, low-molecular by-products of nitration, random mechanical impurities and excess moisture, the nitrocellulose fibrous mass is dried to a residual moisture level sufficient for safe grinding, - the dried nitrocellulose fibrous mass is ground to obtain a nitrocellulose base of consolidated charges in the form of a polydisperse mixture of fibrous particles - This mixture in its original form or after introducing at least one modifying additive into it is transferred to the production of consolidated charges.

From what has been said, it is clear that in comparison with the prototype, the method according to the invention: 70 - firstly, it is significantly simpler, because it allows obtaining the nitrocellulose base of consolidated charges from a non-plasticized fibrous semi-finished product, - secondly, due to the exclusion of nitrocellulose plasticization with volatile solvents, it is significantly more productive , economical and less dangerous for both personnel and the environment, and - thirdly, it allows you to receive consolidated, especially projectile, charges in the form of "felt" tablets or briquettes with through porosity, which maintain their integrity after initiation and in the process of burning and incapable of detonation in the chamber or the part of the SVP barrel channel connected to it.

The ability of a polydisperse mixture of fibrous particles of unplasticized nitrocellulose to form a "felt" structure under suitable pressing modes is our unexpected discovery, which can significantly change the organization of the production of nitrocellulose BP.

The first additional difference is that the fibrous mass of nitrocellulose before grinding is dried by blowing a layer of fibers with air at a temperature from 50 to 702C to a residual moisture of no more than 495 by mass. Such drying is economical and safe.

The second additional difference is that the fibrous mass of nitrocellulose is dried to a residual moisture in the range of 2-495 by weight. This simplifies and accelerates the grinding of the specified fibrous mass. with

The third difference, additional to the first or second difference, is that the fibrous mass of nitrocellulose is dried before grinding to a residual moisture content of no more than 290 by weight. This significantly simplifies and accelerates, and often eliminates the drying of consolidated charges from a mixture of nitrocellulose fibers.

The fourth additional difference is that the dried fibrous mass of nitrocellulose is crushed to obtain a polydisperse mixture of fibrous particles, where at least 9595% of the mass of the mixture consists of particles in which the ratio of the length of H. to the maximum transverse dimension of 4 corresponds to the condition of H/4 « 24. This mixture creates a stable structure of the "felt" type even when making consolidated charges weighing less than g

The task is also solved by the fact that the consolidated propellant charge in the form of at least one nitrocellulose-based briquette with the specified geometric shape and mass according to the invention is made from a mixture of polydisperse nitrocellulose fibers | has a porous "felt" structure. Such C 3z5 charges are permeable to powder gases after initiation of combustion. Therefore, they retain their integrity during combustion and are practically incapable of detonation in the chamber or the part of the SVP barrel channel connected to it.

The first additional difference is that at least 9595% of the mass of the specified mixture consists of fibrous particles, in which the ratio of the length of the GI to the maximum transverse dimension a corresponds to the condition « //a « 24. With this composition of the mixture, the "felt" structure is stable even in charges with a mass less Mr.

The second additional difference is that the specified charge has an average density in the interval - s 0.7-1.3g/cm 3. This allows you to widely adjust the burning rate of consolidated charges in their entire "" volume. " The third additional the difference is that the specified charge has a residual moisture of no more than 295 by mass, which ensures stable combustion of the charge after initiation with minimal consumption of the initiating BP.

The fourth additional difference is that the indicated charge, along with the nitrocellulose base, contains a modifier selected from the group consisting of stabilizers, phlegmatizers, flame retardants, anti-erosion additives, energy additives | arbitrary combination of at least two specified modifiers. This allows for the production of consolidated charges for various purposes. o The fifth additional difference is that the porosity of the charge is chosen in the range of 5.6-57.095 of the volume of the charge in sl 20 as a whole, and the sixth, additional to the fifth difference, is that the porosity is within 19, 4-57.0905 of the indicated volume. Adjusting the porosity, especially in the specified sub-range, allows you to adjust the burning rate of consolidated charges in their entire volume within wide limits.

The seventh additional difference is that the fibrous particles of nitrocellulose in the near-surface layer at least on the side wall are immobilized. This all the more effectively prevents loosening of the near-surface layer | the possible fall of fibrous particles during shaking, which is connected, for example, with the transportation of ammunition, the higher the porosity and the greater the mass of projectile charges according to the invention.

The eighth additional difference is that these fibrous particles are immobilized by a thin film of nitrocellulose, which does not prevent the effective combustion of the charges as a whole.

And, finally, the ninth additional difference is that the specified nitrocellulose film has 60 pores throughout, which, along with increasing the mechanical strength of the charges, ensures the free penetration of the ignition pulse into the depth of the porous mass of the charge immediately after the initiation of combustion.

The following illustrations are attached to the description:

Fig. 1 is a photomicrograph with a magnification of 130 X of the original (not crushed) fibrous nitrocellulose base of the charges; because Fig. 2 is a microphotograph with a magnification of 130X of a crushed fibrous nitrocellulose base of charges;

Fig. 3 - a photomicrograph with a magnification of 130 X of a section made from a fibrous nitrocellulose base of a consolidated charge of a cylindrical shape (on the lower left in the "window" - a photo of the charge with the cut location indicated);

Fig. 4 - a photomicrograph with a magnification of 90 X of the fracture surface of the charge from Fig. 3 (bottom left in the "window" - a photo of the charge with an indication of the location of the fracture);

Fig. 5 is a consecutive series of photographs with an increase in Z and X of consolidated charges made of fibrous nitrocellulose particles, namely: (1) - initial charge; (2) - the charge that was extinguished immediately after the initiation of combustion; (3) and (4) - charges that were extinguished at intermediate stages of combustion, and (5) - charge that was extinguished at the end of combustion;

Fig. b is a microphotograph with a magnification of 130 X of the surface of a partially burned charge (3) from Fig. 5, where arrows show some deep craters (lower right in the "window" - a photo of a partially burned charge).

Next, the essence of the invention is explained: - a general description of the method of manufacturing a nitrocellulose base of consolidated charges and practical recommendations for its implementation, 19 - a description of the method of manufacturing consolidated charges on the specified basis, - examples of the use of the specified base in consolidated projectile charges mainly for hunting weapons and - results comparative tests of new and known projectile charges.

In general, the method of manufacturing the nitrocellulose base of consolidated charges involves: (a) nitration of thin fibrous cellulose raw materials until the specified concentration of nitrogen is reached in the nitrocellulose semi-finished product, which has the appearance of a wet fibrous mass, (b) removal of nitration mixture residues, low-molecular by-products of nitration, random mechanical impurities | excess moisture from the indicated fibrous mass, (c) drying the cleaned | partially dehydrated fibrous mass to the residual moisture, which is sufficient for c safe grinding of nitrocellulose fibers, o (d) grinding of dried nitrocellulose fibrous mass (see Fig. 1) to obtain a nitrocellulose base of consolidated charges in the form of a loose polydisperse mixture of sufficiently twisted fibrous particles (see

Fig. 2), (e) optionally, the introduction of at least one modifying additive into the specified nitrocellulose base | and (e) transferring the specified nitrocellulose base as such or after introducing into it at least one modifying additive for the manufacture of consolidated charges.

These operations are usually performed in this way. at

For operation (a), as a rule, cotton, thoroughly cleaned of mechanical impurities, is used as a thin-fiber cellulose raw material. However, it is clear to a specialist that when there is an acute need for raw materials instead of cotton

You can use high-quality wood pulp in its original form even in the form of loose - high-quality paper.

The nitrogen content in the dry mass of nitrocellulose can be from 11.0 to 14.195 - in the nitrocellulose basis of charges of any kind, and mainly from 11.5 to 1295 - for koloxylins, from 13.0 to 13.595 - for pyroxylin Mo and from " 12 .05 to 12.490 - for pyroxylin Mo2. Nitration leads to the achievement of such nitrogen content in nitrocellulose, which is selected in the desired interval. It is expedient to obtain nitrocellulose with different nitrogen content for subsequent mixing with the manufacture of charges with different ballistic properties. "» Nitration is carried out with the use of compositions of nitrifying mixtures, bath modules, temperature and time well known to specialists. Thus, in the mass of the original nitrifying mixtures, there are usually from 20.5 to 21.595 nitric acid and from 63.0 to 68.995 sulfuric acid and no more than 16.595 water. The modulus of the bath, that is, the ratio of the mass of the acid nitrifying mixture to the mass of cellulose, is chosen in the range from 45 to 50 for cotton and from 33 to 38 for wood pulp. The temperature is usually set in the range from 25 to 302С when obtaining "yz" pyroxylins with a nitrogen content in the dry product of more than 1395 by mass and in the range from 35 to 409 when obtaining pyroxylins and koloxylins with a nitrogen content of 12-139o by mass. i-th For operation (b), standard equipment such as washing machines, centrifuges and 20 magnetic separators are usually used, as well as modes of multiple hot washing with boiling of the fibrous mass, its wringing to a residual moisture of no more than 3295 and cleaning from possible mechanical impurities known to specialists .

In operation (c), the fibrous mass of nitrocellulose is usually dried by blowing a layer of fibers laid on a porous, for example, canvas substrate, with air at a temperature in the range from 50 to 7029C. The blowing speed should be such as to exclude the removal of dried fibrous particles by the air current.

GF) Drying is stopped when a residual moisture content of no more than 495 is reached, preferably in the range from 295 to 495, and it is most desirable - no more than 295 by weight.

In operation (d), the dried fibrous mass of nitrocellulose is crushed, as a rule, by rubbing through a sieve with a maximum diameter of holes of no more than 2 mm to obtain a polydisperse loose mixture of fibrous particles. It is preferable that at least 9595% of the mass of this mixture consists of particles in which the length ratio /. up to the maximum cross-sectional size of 4 corresponds to the condition I/a « 24. This condition corresponds to such a mixture of crushed nitrocellulose fibers, in which the elementary fibers have a diameter close to the average value

О,О5mm, and a length whose average value does not exceed 1.2mm.

The degree of grinding can be checked by analyzing samples under a microscope. However, in practice it is desirable to use the "settlement test". For this, a sample of dry crushed nitrocellulose fiber weighing 10 g is placed in a standard cylindrical measuring cup with a capacity of 50 Oml, which has an inner diameter of about 47 mm and a scale with divisions in milliliters on the side wall. Pour 250 ml of distilled water into the sample, shake thoroughly, and let the resulting suspension stand for 1 hour. at room temperature and on the scale determine the limit of separation of water and sediment. Such a limit is usually located at the level of 85-9O0ml for the residue of non-crushed fibrous mass of nitrocellulose, and no more than b2ml for the residue of fibers that meet the condition I /4 « 24.

For operation (d), which is carried out when additional requirements are imposed on the charges, at least one modifier taken in a suitable amount can be introduced into the nitrocellulose base, selected from the group consisting of: 70 - stabilizers (usually diphenylamine, or derivatives urea, in which the hydrogen atoms are replaced only by ethyl or methyl and ethyl groups), phlegmatizers (usually camphor), - flame retardants (usually potassium salts), - anti-erosion additives (usually titanium dioxide, lead suric, dinitrotoluene, dibutyl phthalate, or their arbitrary combinations), - energy additives (such as hexogen, octogen or their combinations) | any combination of at least two specified modifiers.

When a modifier is introduced in the form of a solution, the nitrocellulose base is transferred to the manufacture of charges after additional drying (predominantly in a weak stream of air with a temperature of about 30 oC, to a residual content of volatile solvents of no more than 695, and preferably no more than 595 by mass). This is done, for example, after the introduction of diphenylamine or camphor in an alcoholic solution or potassium salts in an aqueous solution.

Pre-drying is not required after the introduction of finely dispersed dry anti-erosion additives.

For operation (e), the nitrocellulose base is usually packed in an airtight container for long-term storage and/or transportation, or directly transferred to the formation of charges. Before this operation, the residual moisture of the specified base can be determined by any suitable method, for example, by careful drying under vacuum to a constant weight, and the obtained data are given on the container or in the accompanying documents. at

Next, the actual value of the residual moisture should be used when preparing the nitrocellulose base for processing into consolidated charges. It is especially important to take this indicator into account when calculating doses of such a base to ensure the required mass of charges and to assess the need for their drying after pressing. eh

If the manufacturer of the non-plasticized fibrous nitrocellulose base did not specify its residual moisture, then before dosing the specified base, this indicator is determined by the charge manufacturer. what

Before manufacturing non-standard ballistics charges or ammunition, using methods well known to them, depending on the specific purpose and required power of the ammunition and the permissible dimensions and shape of the consolidated charges, determine the specific values of the mass, dimensions, shape and density of the charges and allowable deviations from such values. It is clear that the results of such calculations are usually corrected after the fire tests of a test batch of ammunition.

For the production of consolidated charges using the specified base, multi-nest molds are used, as a rule. However, regardless of the number of nests, the molds are usually equipped with dies with "through holes, pairs of counter-oriented punches for each hole, and punch travel stops. Such limiters practically exclude repressing of consolidated charges and - with ensure the stability of their axial dimensions. The capacity of the nests for forming is set taking into account the gravimetric mass, residual moisture and the size of the doses of the nitrocellulose base, and the residual gap between the punches at the end of pressing is determined taking into account the mass and density of the charges set by ballistics.

Punches and holes in matrices usually have round cross-sections. However, other (both axisymmetric and non-symmetric) forms of cross-sections, which, if necessary, can be chosen by ammunition designers depending on the specific purpose of the SVP, are not excluded.

For safe pressing of consolidated charges, the average speed M sp (mm/s) of the convergence of punches of caliber dp usually satisfies the condition Mosp x 107/ad2. d 20 It is clear to a specialist that for punches with a circular cross-section, the caliber a, is equal to the diameter, and for non-circular punches, the caliber is determined by the principle of hydraulic analogy with the corresponding round punches. It is also clear that immediately after pouring weighted or volume-measured doses of non-plasticized fibrous nitrocellulose base into the nests of the molds, the speed of convergence of the punches can be equal to or at least close to the calculated maximum, and then this speed is usually reduced. 22 The observed slowing down of the convergence of the punches as the charges are densified should be the more noticeable the

GF! greater is the mass and axial dimensions of the charge being pressed.

Depending on the residual moisture of the used nitrocellulose base, the ready charges are either dried, or directly transferred to packaging in a hermetic container for transportation and/or storage, or for equipping ammunition. 60 Ready-made charges (see Fig. 3) have a porous structure of the "felt" type, resulting from the interweaving of twisted elementary fibers (see Fig. 4). The "felt" is created all the more reliably, the larger the proportion of the polydisperse mixture of the original nitrocellulose fibers consists of particles with a length ratio of |. to the maximum transverse size 4 corresponds to the condition Г/4 « 24. Therefore, it is highly desirable that this fraction be at least 9595 by mass. because it is advisable that the average density of ready-made consolidated charges is not less than 0.7g/cm U, because at a lower density they can crumble before equipping ammunition, and not more than 1.3g/cm U, because at a higher density, the combustion of nitrocellulose "felt" " may become shaky after initiation. However, these limits are preferable, but not mandatory. Indeed: with strict observance of the above-mentioned condition I/a "24, a "felt" structure can be obtained even with a density of ready-made consolidated charges slightly less than 0.7 g/cm ZU, which is acceptable for the manufacture of loose projectile charges for large-caliber hunting weapons or mounting pistols and perforators, and the density of charges of small (about 0.2 g) mass (when storing through pores, necessary for stable combustion in the entire volume) can be close to the maximally achievable value during pressing of 1.56 g/cm3.

The actual density of the charges can be determined by weighing them, calculating the volumes according to standard mathematical formulas (after measuring the linear dimensions using suitable means) and dividing the mass by the volume.

It should be noted that in cases where the projectile charges as part of the equipped ammunition are subject to long-term storage and/or transportation, it is advisable that the fibrous particles of nitrocellulose in the 72 near-surface layer at least on the side wall are immobilized. To do this, it is enough to cover the charges with a thin film of nitrocellulose, which can have through pores.

Such a film is easily applied, for example, by spraying a solution of nitrocellulose in a suitable volatile solvent, in particular, acetone, or by spraying such a solvent over the surface of a pressed metal charge, which will lead to partial dissolution of nitrocellulose. Both in the first and in the second variant, the fibrous particles in the near-surface layer stick together and, after short-term drying, form a fairly strong film that protects loose charges from falling and changing their ballistic properties.

For stable combustion after initiation with minimal consumption that initiates BP, it is desirable that the residual moisture content of the finished charges does not exceed 295 degrees Celsius.

Naturally, ready-made charges, along with the nitrocellulose base, may contain a modifier selected from p. 29 of the group described in detail above, consisting of stabilizers, phlegmatizers, flame retardants, anti-erosion additives, energy additives and any combination of at least two specified modifiers. For the selection of specific modifiers, the rules known to ballisticians, used in the modification of ordinary granular powders, can be used.

The permissible range of porosity of ready-made charges is from 5.6 to 57.095 of their total volume, but it is desirable that the porosity is in the range from 19.4 to 57.095 of the total volume. yu

It should be borne in mind that specific values of porosity can be determined by methods known to specialists, taking into account: that) - nitrogen content in dry nitrocellulose, « - residual moisture content in nitrocellulose fibers,

Zo - densities and concentrations of used modifiers (of which only diphenylamine is often used in projectile charges with a shelf life of more than a year) and - the actual density of consolidated charges.

A minimum porosity of 5.696 characterizes consolidated charges made by pressing "to the stop" from "pure dry nitrocellulose containing 1195 nitrogen by weight. For similar charges made of nitrocellulose containing 14.195 nitrogen by mass, the minimum porosity will be 6.595. With c The maximum porosity of 57,095 characterizes consolidated charges made by pressing pure dry

From" nitrocellulose with a nitrogen concentration of 14.195 by mass to an actual density of 0.7g/cm3.

The described consolidated charges, denoted hereinafter MI, can be used to equip ammunition both by themselves and in combination with ordinary loose powders. At the same time, ready-made charges can include both single consolidated parts with the same shape, size and density, and several

She of such parts with the same or different shape, size and density. Combined projectile charges allow you to widely adjust such ballistic parameters as the maximum pressure of powder gases in the bore of the barrel

SVP and the initial speed of the fired bodies, and thereby affect the effectiveness of the shot. These possibilities are demonstrated by examples of tests of different charges for a smooth-bore hunting s 20 rifle of 12 gauge (see table 1, where the data on the pressure in the barrel in "MPa" are calculated on the basis of the data in the "Rvi" with an experimental coefficient -- 0.115, determined using a crusher device). bases in projectile charges for a 12-gauge hunting rifle mass of bulk BASIC bases g g/cm C pcs MPa/Evi | (M/syre vo 31515118 7183 96511310 voz zvyvu 1718310 mov 1101801000811 aByaizot zvumkv, vv 4 1A (v) Mi16.5 1A 0.7 1 81.6/707) 461/1512 v | la | la 1 nemavu/|7/o 177717. 17711oztazov zaliv 70 Marked with the MI sign. parts of the projectile charges indicated in Table 1 with a diameter of 16.5 and 8.0 mm were made from a pyroxylin fibrous nitrocellulose base with a nitrogen content of 12.895, a diphenylamine content of about 195 and a total residual content of volatile ingredients (water and ethanol used during the introduction of diphenylamine) up to 1.995 masses

The cartridges were equipped with standard equipment using plastic sleeves equipped with /5 capsules and powder-containers of the company "Winchester", lead shot Mo3 with a diameter of 3.5 mm and a mass of 28.5 g per cartridge and standard smokeless powder for hunting rifles "Winchester". Equipped cartridges were wrapped according to the scheme of an 8-ray star.

The ballistic indicators indicated in Table 1 (and below) were determined using the Regzopai installation available on the market! Vaiiiviisv av OSENI EK Moavei 43, which has a rigid fixator of the SVP, used in 20 experiments; at least one strain gauge sensor, which is rigidly fixed on the outside of the barrel in the area of the SVP chamber and which is connected to the block of software calculations for determining the pressure of powder gases in the bore of the barrel; usually three optical sensors of the "sky screen" type, which are sequentially installed on one line behind the muzzle section of the SVP at fixed distances from each other and also connected to the block of software calculations for determining the initial velocity of the fired bodies; a means of printing individual test reports for each shot and statistical processing (8) of the results of a series (usually up to 10) of shots.

Table 1 shows the arithmetic mean results of fire tests for series of 10 shots. As can be seen from Table 1: all variants of composition of projectile charges with the use of MI. parts are functional, and it is possible to achieve the same initial velocity of the shot projectile as with the conventional equipment option at a significantly lower maximum pressure of the powder gases in the barrel (example C compared to example 8) or, on the contrary, some increase in the initial speed of the shot projectile at the same pressure gases, as in the regular version (example 6 compared to example 8). "

The given examples show that the use of Mi-parts is useful from the point of view of ballistic efficiency in the production of shotgun cartridges in hunting, sports and reinforced (magnum) versions. Experience shows that the higher the permissible level of gas pressure in the barrel, the easier it is to increase the initial velocity of the projectile with the help of Mi parts compared to the usual equipment option. Therefore, for the practical use of Mi-parts, the most promising, as a rule, are sports and reinforced (magnum) variants of cartridges for "adkostovnyh" and sports and hunting cartridges for rifled SVP. 2 s This is confirmed by the data obtained through fire tests of 12//Ohm cartridges of the Napieg, Brog and Madpyt types, equipped with shot (mass 32g) and metal charges of the Mi type, in comparison with reference data for similar lead cartridges global companies (see table 2). : pi : - : sh i: » iy so

It is clear to specialists that the given examples of implementation of the invention in no way exhaust the possibilities

GF! other implementations of the inventive concept in accordance with the independent claims.

So, it is obvious that a polydisperse mixture of fibrous nitrocellulose particles can serve as a "felt" basis not only for consolidated projectile charges for arbitrary SVPs, but also as a similar basis for consolidated signal charges and pyrotechnic products, which are usually made using 60 classic smoke powders. It is also obvious that the geometric shapes, sizes, and mass of consolidated projectile charges for various SVPs may differ significantly from those shapes, sizes, and masses specified in the above specific examples, and that the knowledge of an average expert in the field of ballistics is sufficient for the design and manufacture of such charges.

The invention is industrially suitable, as it can be implemented on existing productions of nitrocellulose BP with the production of such consolidated charges of arbitrary mass and shape, which have a porous felt structure and, in principle, cannot detonate in the chamber or the part of the barrel channel connected to it

SVP

Indeed, figures 5 and 6 clearly show that the consolidated charges according to the invention are able to burn evenly from all sides and burn without disintegration.

Claims (15)

2 Formula of the invention 1. The method of manufacturing the nitrocellulose base of consolidated charges, which includes the nitration of thin fibrous cellulose raw materials until the specified concentration of nitrogen is reached in the semi-finished product of 70 nitrocellulose, which has the appearance of a wet fibrous mass; removal of nitration mixture residues, low-molecular-weight by-products of nitration, accidental mechanical impurities and excess moisture from the fibrous mass of nitrocellulose, grinding of nitrocellulose fibers, introduction, if necessary, into the mass of nitrocellulose of at least one modifying additive and transfer of the obtained nitrocellulose base as such or after introduction into it at least one modifying additive for the manufacture of consolidated charges, which differs in that after removal of nitration mixture residues, nitration side products of low molecular weight, accidental mechanical impurities and excess moisture, the nitrocellulose fibrous mass is dried to a residual moisture content sufficient for safe grinding, the dried nitrocellulose fibrous mass is ground to obtaining a nitrocellulose base of consolidated charges in the form of a polydisperse mixture of fibrous particles. 2. The method according to claim 1, which differs in that the fibrous mass of nitrocellulose is dried before grinding by blowing the layer of fibers with air at a temperature from 50 to 702C to a residual moisture of no more than 4 95 by mass. 3. The method according to claim 2, which differs in that the fibrous mass of nitrocellulose is dried before grinding to a residual moisture content in the range from 2 °C to 49 °C. high school 4. The method according to claims 1 or 3, which differs in that the fibrous mass of nitrocellulose is dried before grinding to a residual moisture content of no more than 2 95 by weight. (8) 5. The method according to claims 1 or 2, or 3, or 4, which is characterized by the fact that the dried fibrous mass of nitrocellulose is crushed to obtain a polydisperse mixture of fibrous particles, in which at least 95 95 of the mass of the mixture consists of particles in which the length ratio is - to the maximum transverse of size 7 meets the condition of so zo 19294. yuyu 6. A consolidated projectile charge in the form of at least one nitrocellulose-based briquette with a specified geometric shape and mass, which is distinguished by the fact that it is made of a mixture of polydisperse nitrocellulose fibers and has a porous "felt" structure. "AND 7. The charge according to claim 6, which is characterized by the fact that at least 95 95 of the mass of the specified mixture consists of fibrous 325 particles, in which the ratio of length - to the maximum transverse size 7 meets the condition! ha 5 24. - 8. The charge according to claim 6, characterized in that it has an average density in the range of 0.7 to 1.3 g/cm. 9. Charge according to claim 6, which differs in that it has a residual moisture of no more than 2 95 by mass. 10. The charge according to point b, which is characterized by the fact that it, along with the nitrocellulose base, contains a modifier "70 selected from the group consisting of stabilizers, phlegmatizers, flame retardants, anti-erosion additives, 8 s energy additives or any combination of at least two specified modifiers. and 11. The charge according to point b, which differs in that its porosity is selected in the range from 5.6 to 57.0 95 of the volume "" of the charge as a whole. 12. The charge according to claim 11, which differs in that its porosity is selected in the range from 19.4 to 57.0 95 of the volume of the charge as a whole. -AND 13. The charge according to claim 11, which is characterized by the fact that the fibrous particles of nitrocellulose are immobilized in the near-surface layer on the side of at least the side wall. t- 14. The charge according to claim 13, which is characterized by the fact that the specified fibrous particles are immobilized by a thin film of sl nitrocellulose. page 50 15. The charge according to claim 14, which is characterized in that said nitrocellulose film has through pores. IR e) F) ime) 60 b5