RU2698834C1 - Industrial explosive - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to industrial explosive (IE) intended for intermediate detonators used for initiation of low-sensitivity well charges of explosive type ANFO. Industrial explosive contains ammonium nitrate, water 80–85 % solution of monoethanolamine nitrate and its absorber mixed with combustible additive. Absorber contains kieselguhr, pearlite, vermiculite or mixture thereof, and the combustible additive contains: wood flour, cereal flour, sodium salt of carboxymethyl cellulose, starch, dextrin, coal dust, powder or powder of aluminium, silicon, magnesium or their alloys, or their mixture. For production of explosives at the blasting site, non-explosive safe during storage and handling are required, which ensures efficiency and safety of blasting operations at open pits and pits.

EFFECT: explosive has low sensitivity to mechanical effects, and detonation properties of explosive excite ammonite 6ZhV.

1 cl, 2 tbl

Description

The proposed technical solution belongs to non-explosive explosives (BB), intended for use in blasting operations on an open surface and in underground conditions. The preferred area of application is at blasting sites for the manufacture of intermediate detonators designed to initiate borehole charges from the simplest explosives of the ANFO type based on ammonium nitrate and liquid or solid fuel.

Cast or pressed intermediate detonators are known for initiating borehole charges of low-sensitivity explosives of the ANFO type. These include detonator drafts from blasting explosives of TNT T-400G or its mixture with hexogen TG-500 (see Pozdnyakov Z.G., Rossi B.D. Handbook of industrial explosives and explosives. - M .: Nedra, 1977 .-- 252 p.). In underground conditions and partially in open-cast mining, industrial explosives of class II from ammonite No. 6ZHV in cartridges with a diameter of 32 ... 36 mm, which is a powder explosive from a mixture of ammonium nitrate and TNT (see GOST 21984-76, are used as intermediate detonators). industrial. Water-resistant ammonites. Technical conditions).

The main disadvantage of the above explosives used for the manufacture of intermediate detonators is that they have a fairly high sensitivity to mechanical stress, which, if exposed to machines and mechanisms when charging wells, can lead to unauthorized premature explosion. As a result, during blasting operations using intermediate detonators of their blasting explosives or industrial explosives of class II, accidents and injuries are observed. In addition, it should be noted that these explosives require appropriate storage locations and compliance with the transportation rules to the place of blasting, which causes additional costs and requires the special protection of explosive storage facilities. Therefore, for the manufacture of intermediate detonators, explosives are needed that would be insensitive to shock and friction and could be manufactured at blasting sites. At the same time, without organizing special chambers and warehouses for storing explosives with appropriate protection.

The closest explosives for the manufacture of intermediate detonators to explosives, which is proposed according to this invention is according to US Pat. US No. 3718512 from 02.27.1973 a mixture of powdered ammonium nitrate with nitromethane in the ratio, wt. %:

ammonium nitrate 65-88.0 nitromethane 12.0-35.0.

This explosive is selected as the prototype. It is used for the manufacture of intermediate detonators and can be manufactured directly at the site of blasting in quarries (see Zheltonozhko A.A., Zakusilo V.R., Zakusilo R.V., Shvidko P.V. New intermediate detonators based on nitromethane and ammonium nitrate for initiating borehole charges, Vesnik KPI, Gornaya Series, K., NUTU KPI, Issue 17, pp. 92-97). According to this work, it is proposed to use the following ratios of ammonium nitrate and nitromethane for intermediate detonators: ammonium nitrate 75-80%, nitromethane - 20-25%.

It should be noted that a number of US companies produce special binary explosives for blasting under the general name "Kinepak". They are explosives, consisting of two parts: one part is powdered ammonium nitrate, hermetically packed in a plastic polymer shell, the second part is nitromethane, which is poured into a plastic cylinder with a special drain device in the form of a hollow needle. With its help, they pierce the shell of the packaging of ammonium nitrate and squeeze nitromethane inward. Nitromethane infiltrates ammonium nitrate and the mixture is converted into an effective explosive according to US Pat. US No. 3718512 dated 02.27.1973. There are several varieties of such explosives that can be used as intermediate detonators for initiating borehole explosive charges. Kinepouch consists of a polymer bag measuring 11.4 cm × 12.7 cm × 3.8 cm, in which 330 g of powdered ammonium nitrate is hermetically sealed in a plastic cylinder with a diameter of 3 cm, 17.1 cm long, contains 104 nitromethane Thus, when they are mixed, the ratio of ammonium nitrate and nitromethane is respectively 76% and 24%. This explosive easily explodes from the detonator capsule and has a detonation velocity of about 6000 m / s, that is, it can be used as an intermediate detonator of well charges charged by ANFO. There is a “Kinestik" this intermediate detonator consists of two polymer cylinders, one for ammonium nitrate with a diameter of 3.5 cm and a length of 20.3 cm, containing 165 g of finely powdered ammonium nitrate. The second cylinder, 2.54 cm in diameter and 12.4 cm long, contains 51 g of nitromethane, which is squeezed out with a needle into a cylinder with ammonium nitrate. After impregnation of ammonium nitrate with nitromethane, an explosive is obtained in which the ratio of ammonium nitrate to nitromethane is 76.4%: 23.6%.

Thus, the known explosive can be obtained at the place of blasting and used as an intermediate detonator to initiate borehole charges ANFO. This explosive possesses high detonation properties (a critical detonation diameter of 5-8 mm), has a high sensitivity to detonation, can explode from a standard detonator capsule No. 8, and its detonation velocity is about 6000 m / s. It is quite safe to use, has a low sensitivity to shock and friction. However, this explosive has a number of disadvantages.

The disadvantages include, first of all, the fact that nitromethane cannot be synthesized and obtained at blasting sites. Its production is quite complicated and requires special chemical equipment. Therefore, nitromethane is purchased from the manufacturer. Its price is high and much higher than that of TNT. In addition, nitromethane is a volatile and combustible liquid that requires special containers during transportation and storage. All these shortcomings complicate the use of nitromethane, and taking into account its high price, require large financial costs for the production of intermediate detonators at blasting sites.

The basis of the invention is the task of developing an industrial explosive for intermediate detonators manufactured at blasting sites to initiate borehole charges of the simplest explosives of the ANFO type. This problem is solved by partially or completely replacing nitromethane with a component that has a simple production at the blasting site, is not volatile, not dangerous, that is, not highly combustible, and could be easily used to prepare explosives from which it could be made intermediate detonators according to the technology described above, that is, in the form of binary mixtures. As such a component for binary explosives or for other explosives and intermediate detonators, a highly concentrated 80-85% aqueous solution of monoethanolamine nitrate is proposed. To obtain such a solution, monoethanolamine and 57% nitric acid are used. By mixing the equimolecular parts of monoethanolamine and nitric acid, monoethanolamine nitrate is readily soluble in water. Obtaining a solution is possible in any reactor equipped with a stirrer made of a metal resistant to dilute nitric acid. The formation of monoethanolamine nitrate is absolutely safe. After a monoethanolamine nitrate solution has formed in the reactor, it is sent to evaporate water to the desired concentration of monoethanolamine nitrate. During evaporation, a concentration of 80-85% of monoethanolamine nitrate is achieved, which corresponds to a solution density at 20 ° C of 1.36-1.38 g / cm ³ . The resulting solution of monoethanolamine nitrate is used for the manufacture of industrial explosives and intermediate detonators.

The task of obtaining an industrial explosive for intermediate detonators is solved due to the fact that an industrial explosive substance containing powdered ammonium nitrate, nitromethane, trotyl, according to the invention, is characterized in that it contains an 80-85% solution of monoethanolamine nitrate and its absorber mixed with combustible additive in the following ratio of components, wt. %:

ammonium nitrate 62-80 monoethanolamine nitrate (80-85% solution) 12-28 absorber 2.0-6.0 combustible additive 2.5-11.0,

at the same time, dry powders of kieselguhr, perlite, vermiculite or a mixture of them in any ratio are used as an absorber, and as a combustible additive: wood flour, coal dust, cereal flour, starch, dextrin, powder or powder of aluminum, magnesium, silicon or their alloys in a mixture in any ratio.

To select the optimal ratios of the components of the declared explosive composition, experimental samples of similar explosives were made to study their detonation properties and impact sensitivity. The compositions of these explosives are given in table. 1 together with analogues and prototype of those explosives that are used for the manufacture of intermediate detonators for initiating borehole charges from low-sensitivity explosives of the ANFO type.

* - sodium salt of carboxymethyl cellulose.

In the table. 2 shows their explosive and detonation properties of the above explosives

A study of the test results of experimental samples of explosives showed that their sensitivity is much lower than that of analogues and prototype. However, they are somewhat inferior in detonation properties to the prototype, but this is due to the fact that the content of monoethanolamine nitrate in the composition is significantly lower than that of nitromethane in the explosive prototype. However, all experimental explosive compositions in their detonation properties exceed the widely used explosive ammonite No. 6ZHV. However, if you adjust the content of the absorber and combustible additives in such a way as to maintain a high density of explosives and their explosion energy, then you can achieve indicators of detonation properties at the level of the prototype. So composition No. 5 has detonation properties only slightly inferior to the prototype, but it is absolutely not sensitive to mechanical stress, does not contain nitromethane and its cost is much lower than that of the prototype. In addition, its production is simple and can be carried out at blasting sites without the involvement of special chemical equipment that is involved in the production of nitromethane. Thus, for the proposed explosives for intermediate detonators, the following limits are set for the content of components in the composition.

Ammonium nitrate - 62.0-80%. The lower limit is established on the basis of the conditions for ensuring an acceptable oxygen balance of the explosives, and the upper limit is determined from the conditions for ensuring the high heat of explosion of the explosives.

Monoethanolamine nitrate (80-85% solution) 12-28%. The lower limit is established on the basis of the need to ensure acceptable detonation properties of explosives, and the upper limit is based on the physical stability of the explosive composition and economic feasibility.

Absorber 2.0-6.0%. The lower limit is set based on ensuring the necessary stability of the explosive composition and the uniform content of monoethanolamine nitrate throughout the composition, and the upper limit, based on an acceptable level of detonation properties.

Combustible additive 2.5-11.0%. The lower limit is set based on an acceptable level of explosive energy, and the upper one, due to the need to maintain an acceptable oxygen balance of the explosive.

Make the proposed explosives for intermediate detonators as follows.

An 80-85% solution of monoethanolamine nitrate is prepared, as described above, and mixed with an already prepared mixture of powdered components of ammonium nitrate, an absorber, and a combustible additive in a Cooper-type paddle mechanical mixer. To ensure the optimal process of mixing the components of explosives, the following technical regulations have been adopted.

Dry powdered components with a moisture content of 0.1-0.15% are sieved through a No. 14 sieve and put into a 300 kg mechanical paddle mixer in the following proportions:

ammonium nitrate 63.0% (189.0 kg) perlite absorber 3.0% (9.0 kg) combustible additive: NaKMTS (sodium salt of carboxymethyl cellulose) 2.5% (7.5 kg) and aluminum powder type PP-1 - 5.5% (16.5 kg).

Bulk powder components are mixed for 5-6 minutes to obtain a homogeneous mixture. Then, a 85% liquid solution of monoethanolamine nitrate is added to the powder mixture, which is added in separate portions with constant stirring of the composition. A 85% solution of monoethanolamine nitrate is measured in a volumetric manner through its known density. So in the mixer serves 78 kg (26%) of 85% solution of monoethanolamine nitrate to obtain explosives. To do this, measure the volume of the solution 56.52 liters, which is poured in portions into a mechanical mixer. Mixing the composition of the explosive occurs within 25-30 minutes To obtain a uniform plastic mass. Then the finished mixture is unloaded and patronized on special screw machines into a polyethylene sleeve 0.5 m long with a diameter of 60 mm and a mass of 2 kg. The ends of the sleeve with a patented explosive are carefully clipped with aluminum clips. After that, the finished charges are transported to the charged wells.

In addition, for this explosive composition, the possibility of manufacturing intermediate detonators as binary explosives is not ruled out. In this case, a powdery mixture of ammonium nitrate, an absorber and a combustible additive is patched into a polyethylene sleeve, and a solution of monoethanolamine nitrate in a special syringe tube with a needle. So, for 2.0 kg of an intermediate detonator, 1.48 kg of a powdered mixture of ammonium nitrate, an absorber and a combustible additive is patronized in a sleeve, and 377 ml of a solution, i.e. 0.52 kg of an 85% solution of monoethanolamine nitrate, are poured into a syringe tube. At the site of loading wells in the quarry take a shell with a powder mixture, pierce it with a syringe tube and squeeze a solution of monoethanolamine nitrate into the shell through a hollow needle. After this, the monoethanolamine nitrate solution impregnates the powder mixture, is fixed in it with an absorber, and provides ammonium nitrate with an acceptable detonation ability and sensitivity to primary explosive means, for example, a DSHE-12 detonating cord.

The use of the proposed explosive for the manufacture of intermediate detonators, with the help of which they initiate borehole charges from low-sensitivity explosives of the ANFO type, will make it possible to reduce sensitivity to mechanical effects of explosives due to the rejection of intermediate detonators from blasting explosives and to simplify its production. In addition, intermediate detonators for their manufacture require non-explosive components that are safe to store and handle, which are not combustible or toxic compared to TNT or nitromethane. All this will significantly increase the efficiency and safety of blasting in quarries and mines where non-fuse explosives are used to initiate low-sensitivity borehole explosive charges based on granular ammonium nitrate.

Claims (6)

An industrial explosive for intermediate detonators containing ammonium nitrate, characterized in that it contains an 80-85% aqueous solution of monoethanolamine nitrate and its absorber mixed with a combustible additive in the following ingredients, wt.%: ammonium nitrate - 62.0-80.0, monoethanolamine nitrate (80-85% solution) - 12.0-28.0, absorber - 2.0-6.0, combustible additive - 2.5-11.0, while as an absorbent it contains kieselguhr, perlite, vermiculite or a mixture thereof, and as a combustible additive contains: wood flour, cereal flour, sodium salt of carboxymethyl cellulose, starch, dextrin, coal dust, powder or powder of aluminum, silicon, magnesium, or their alloys, or a mixture thereof.