UA75851C2 - A preventive explosive - Google Patents

Abstract

The invention relates to preventive explosives, intended for explosive rupture of rocks in bottomholes of the mine working. The preventive explosive contains trotyl or a mixture thereof with ammonium nitrate, graphite, ammonium nitrate in the mixture with sodium chloride, and as additive it contains polyphosphates of alkaline metals and/or cryolite, or mixture thereof at any ratio. The invention allows to provide the flame-arresting action on explosion products at simultaneous reducing firing ability of explosive.

Description

Description of the invention

The proposed technical solution belongs to safety explosives intended for the destruction of 2 rocks in mining pits, mainly in mines dangerous due to explosions of gas and coal dust, as well as dangerous due to sudden emissions of coal, rock and gas.

Only special safety explosives are allowed for use in mines that are dangerous due to gas and coal dust explosions. A distinctive feature of these ZVER is that they have a reduced ability to ignite an explosive environment (a mixture of methane or coal dust with air) and are characterized by a value of 70 explosive charge (BP), i.e. the maximum mass of the charge at which the environment does not ignite when using this BP . In addition, the ZVR charges must be resistant to burnout, that is, they must not burn out in the holes in the event of a violation of the sustained detonation of the VR.

Known protective VR ammonites F-5 (see TU 12.00174068.002-92 Water-resistant protective ammonite) and G-5 ammonite (see TU U 3.50-14311844-112-2000 Water-resistant protective ammonite). 12 Both BPs contain a flame retardant - table salt (Masi) and an additive that reduces ignition, i.e. resistance of the BP charge against burnout.

As such additive, ammonite F-5 contains 5.095 phosphogypsum (gypsum Са5оО,.2Н.О, obtained in the process of production of phosphorous mineral fertilizers) and 15.095 of Masi fire extinguisher, and ammonite G-5 - 4.595 graphite of the HT-1 grade, particle dispersion of which 100-200μm (see DST 4596-75) and 15.595 flame extinguisher - Masi. That is, both ZVR contain additives that act differently. Thus, sodium chloride, which inhibits the reaction of methane oxidation by oxygen in the air and is a flame extinguisher for the products of the explosive explosion, at the same time for the active part of the explosive - amotol - is a catalyst for its combustion | see see A.P. Glazkova. Catalysis and combustion of explosives. - M. Nauka, 1976, p.264|, and gypsum and graphite are additives that, on the contrary, suppress the flammability of the active part of ZVR amotol, but are not inhibitors of methane oxidation and therefore cannot be flame retardants for the products of the explosion of VR. As a result, the data of ZVR c are characterized by low safety properties and the ability to form additional quantities of poisonous (9) gases in the products of the explosion of the VR as a result of the oxidation of graphite to CO (carbon monoxide) and the decomposition of gypsum with the release of ZO".

A known protective explosive substance of the following composition in mass. 90: nitroesters 10.0-14.0; ammonium chloride 23.3-25.6; calcium carbonate 4.0-6.0; ammonium nitrate 10.7-21.0: expanded polystyrene 2.0-3.5; sodium salt - carboxymethylcellulose 1.5-2.5; calcium stearate 0.5-1.0; collodion cotton 0.1-0.3 and sodium nitrate - other things (pat. Mo155, Ukraine, СО6ЕВ31/20, publ. 04/30/93. Bull. 11.

The well-known protective explosive contains as an active part a mixture of nitroethers with ammonium nitrate and with polystyrene and additives that provide a flame retardant effect on the products of the BP explosion and the stability of the charge against burning out, represented by a mixture of three salts - sodium nitrate, ammonium chloride and calcium carbonate.

At the same time, it is known that the following chemical reactions occur during the detonation of a nuclear warhead in its volume: What

MNaMOya - m; - 2Н,О 0.50 « сСасоз2МнасиИ- »Сасиог2МНзяНооксо» (2) си с и As a result of reactions (1), ammonium nitrate and sodium chloride are formed. As mentioned, at a high temperature, MNAMO decomposes into nitrogen, oxygen, and water, and the resulting mass is a flame retardant for the products of a nuclear explosion and provides the charge with the required level of protective properties. As a result of reaction (2), calcium carbonate reacts with ammonium chloride and forms a fire extinguisher - calcium chloride. -i It has been experimentally established that when the BP is ignited, reaction (2) effectively prevents combustion and provides the necessary resistance to burnout of the BP charge.

The disadvantage of this ZVR, determined for the prototype, is that to ensure the necessary safety properties (ee) and low ignition, it is necessary to use three salts and, at the same time, maintain the quantitative sl 50 ratio between them quite accurately. However, during the production of ZVR, as a result of existing technological tolerances, their ratio is often violated and this leads to the fact that ZVR does not meet the necessary safety requirements. -. y The invention is based on the task of creating such a safety explosive substance, an additive to the active part of which makes it possible to ensure the flame retardant effect of the explosion products while simultaneously reducing the ignition of the explosive substance, which greatly simplifies the production of such safety explosives, increases their quality, and, therefore, safety of blasting in mines, dangerous due to gas and dust explosions. o The task is solved due to the fact that the safety explosive contains TNT or its mixture with ammonium nitrate, graphite and an additive that ensures the stability of the charge against burning, according to the invention, the explosive contains ammonium nitrate mixed with sodium chloride , and as an additive - polyphosphates of alkali metals and/or cryolite or their mixture in any ratio, with the following content of 60 ingredients, wt.9o: TNT 10.00-24 0 graphite 0.25-1.50 ammonium nitrate in the mixture with sodium chloride 60.00-85.00 6BE polyphosphates of alkali metals and/or cryolite or their mixture in any ratio 4.00-6.00, while the ratio of ammonium nitrate and sodium chloride in the mixture is from 85/15 to 70 /30.

In order to determine the main indicators, 10 experimental samples of the proposed BP were manufactured, which were then tested in the conditions of the testing ground of the Donetsk State Plant of Chemical Products and the control laboratory of the State Makiiv Research Institute for Safety of Work in the Mining Industry (Makndi). The compositions of these BPs and their explosive indicators obtained during the tests are given in the table.

The results of the tests and the comparison of the obtained indicators with the indicators of the current technical requirements for the ZVR for the coal industry, developed by Makndi, during the control tests of the new VR for coal mines 7/0 showed the following.

Samples of ZVR Momot, 2, Z, 4, 5, 6 - meet the norms of technical requirements, which are submitted to ZVR IM class, and samples MoMo7, 8, 9, 10 - do not. At the same time, the Mo 7 sample does not meet the requirements for poisonous gases of BP

The explosion products of this BP contain more carbon monoxide (poisonous gases) than the technical requirements allow. Sample

Mo 8 does not meet the requirements for detonation capability (critical diameter, transfer of detonation between dry and /5 Wet cartridges); the Me9 sample is not responsible for ignition and the rate of poisonous gases, and Mo10 - for detonation transmission between cartridges.

Thus, it is possible to analyze the data obtained during the tests of the samples and associate them with the content of ingredients in the compositions of experimental BPs. The TNT content varied from 9.0 to 25.095. At the same time, it turned out that ZVR containing 9.096 TNT have a low detonation capacity, a high critical diameter and a short detonation transmission distance between cartridges. Graphite (0.20-1.7595) mainly affects the coagulation of ammonium nitrate and the formation of poisonous gases during the explosion of BP. It turned out that if the graphite is less than 0.2595, after 3-4 months of storage (from the moment of manufacture), the composition begins to clump intensively. If it is more than 1.595, then as a result of the oxidation of graphite to carbon monoxide, more than the permitted rate of poisonous gases is formed in the products of the BP explosion. high school

The content of nitrate (MNAMO") and sodium chloride (MaSi) ranged from 87.5 to 68.095 and from 12.5 to 32.090, respectively. At the same time, ammonium nitrate supplies BP with oxygen for oxidizing combustible elements, and sodium chloride i) provides a flame retardant effect on BP explosion products. It was established that BP samples with a ratio (in mass.9o) of MNAMO" and Mass from 85/15 to 70/30 fully satisfy the norms of technical requirements, their indicators are significantly better than those BPs in which this ratio is equal to 87 .5/12.5 and 68.0/32.0. "- z The content of additives that reduce the ignition of BP - sodium polyphosphate and cryolite ranged from 3.0 to 7.090.

The results of the tests showed that both additives effectively reduce the igniting of BP and have a non-alloying effect on the products of the BP explosion. At the same time, the burning of BP-P 53 amounted to 1.27-1.50 g, which is significantly higher than the norm, which is 1.2 g. The protective properties of the VR have not decreased, but even increased a little. Therefore, it can be concluded that both additives have the same effectiveness and can be used in the composition of BP both separately and in a mixture with any ratio between them. At the same time, it is necessary that the content of these additives in the composition of BP was not less than 4.095 and not more than 6.095, because a further increase practically does not affect the ignition of BP, but may reduce the detonation ability.

Thus, the established content of ingredients in the proposed ZVR is as follows: 1. TNT - 10.0-24.0965. The lower limit is set based on the required norm regarding the detonation ability of BP, and the upper limit is based on the understanding of compliance with the norm regarding poisonous gases. in c 2. Graphite - 0.25-1.5095. The lower limit is set based on the need to ensure the friability of the composition and exclude its caking, and the upper limit is based on compliance with the norm regarding poisonous gases. ;" C. Ammonium nitrate in a mixture with sodium chloride in the ratio of them in the mixture from 85/15 to 70/30-60.00-85.0095. The lower limit is determined by the need to maintain an oxygen balance of BP close to zero, and the upper limit is determined by the requirements for BP for coal mines regarding safety properties. -And 4. Polyphosphates of sodium (or other alkali metals) and cryolite and/or their mixture M in any ratio - 4.00-6.0095. The lower limit is set due to the need to ensure the BP's resistance to burnout, and the upper limit is 1 of the required detonation capacity.

Go! Based on the established limits of the content of ingredients in the composition of the proposed BP, its optimal composition was chosen, which corresponds to an almost complete oxygen balance of the fuel components: TNT - 14.795, sodium polyphosphate - 4.895, ammonium nitrate - 6495, sodium chloride - 16.095, graphite - 0.595.

Kk This composition is made as follows.

BP components undergo preparation before mixing. Ammonium nitrate and sodium chloride are crushed.

Saltpeter on a large-grinding crusher and on 2 consecutively installed fine-grinding crushers. Sodium chloride is crushed on rollers. Then they are dried with hot air to a residual moisture content of less than 0.190, sieved, weighed and placed in a conveyor hopper.

F) TNT, graphite, sodium polyphosphate are also sifted, weighed and placed in a conveyor hopper. The components are mixed in a drum with plastic balls with a diameter of mm. The ratio of the mass of the balls and the mass of the mixture of powdered components of BP is 2:1. At the same time, 31.0 kg of TNT, 126.4 kg of ammonium nitrate and 1.0 kg of graphite are first poured into the drum. The mixture is treated with balls while rotating the drum for 50-53 minutes. After that, 32.0 kg of sodium chloride (common salt) and 9.0 kg of sodium polyphosphate are poured into the drum and the processing with balls is continued for another 7-10 minutes. Then the prepared mixture - 200, Okg - is unloaded and directed to be loaded into paper sleeves with a diameter of Zbmm, which is carried out on automatic machines.

Then the obtained cartridges are moisture-insulated. For this, they were immersed in a special mixture of paraffin). and petrolatum, and then packaged in polyethylene bags and corrugated cardboard containers.

The optimal composition of ZVR, manufactured according to this technological regime, passed control tests in

Makndi. According to the results of the tests, a positive conclusion of the institute was obtained, which indicates that the proposed safety explosive meets the technical requirements for safety explosives of the IM class (conclusion dated January 25, 2005).

Thus, the use of the proposed safety explosive during blasting in coal mines will ensure high safety of work and reduce the formation of poisonous gases in the explosion products. 70 Composition of explosive mo1 mo2 MOZ Mod MOB mob Mo7 mov mmo9 mo10 substance tTret 00000001000 000 mo 0 mo | mo mo | about | 80050090

Ammonia 67,075/ | 67,075/ | 48,825/ | 58,225/ | 58,225/ | 49,350/ | BV, A4AL/ | 61,460/ | AT7,770/ | 55,930/ saltpeter/chlorine 12,525 | 12,525 | 20925 10275 10.2785 | 21150 8.406 | 26,340 | 22480 | 26.320 sodium

When 11-61 | 601 14u 1-1 11

Critical diameter 24.0 24.0 "20.0 "20.0 "20.0 19.0 18.0 26.0 17.0 28.0 detonation at p-1.7 g/cm Z

Transfer of detonation: 5 5 8 10 10 11 Z 10 4 dry, see Z Z B b 7 8 1 B 1 wet, see sch 2 o

Safety 0.3 0.3 0.5 0.3 0.3 0.3 0.3 OA 0.3 0.6 properties: kg 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 0.7 by gas t (5095 igniting) h by dust, t (limit.)

Poisonous gases in 65.0 70.0 80.0 70.0 65.0 72.0 85.0 45.0 95.0 35.0 is) explosion products, l/kg so

Correspondence Answer Answer. Answer Answer. IAnswer No No No No technical requirements IM class M class M class IM class M class M class answers. answer answer answer i and -

Claims (1)

The formula of the invention is a protective explosive containing TNT or its mixture with ammonium nitrate, graphite and an additive, "470, which differs in that it contains ammonium nitrate in a mixture with sodium chloride, and as an additive - polyphosphates - from alkali metals and/or cryolite, or their mixture in any ratio with the following content of ingredients, wt. 9b: it TNT 10.00-24.0 graphite 0.25-1.50 ammonium nitrate mixed with sodium chloride 60.00-85.00 -Alkali metal polyphosphates and/or cryolite, or their mixture in any ratio / 4.00-6.00, while the ratio of ammonium nitrate to sodium chloride in the mixture is from 85/15 to 70/30. (ee) shi I I I . Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated 1 microcircuits", 2006, M 5, 15.05.2006. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. name) 60 b5