RU2666426C1 - Composition of explosive mixture - Google Patents

Abstract

FIELD: blasting operations.SUBSTANCE: invention relates to blasting operations, namely to granulated industrial explosives for blasting operations in mining industry and construction. Invention is directed to creation of highly effective and cheap explosive compositions when charging dry and drained boreholes and holes and solving environmental problems through the use of materials for processing of rubber products. Composition contains ammonium nitrate and fuel, as fuel, structuring and stabilizing additives products of processing of mechanical rubber goods are used, such as pyrolysis oil, carbon black. In addition to the oil diesel fuel, waste oil, peat or rubber crumb may be included.EFFECT: invention provides economically effective utilization of mining waste and increases the stability of the simplest explosives and blasting action of explosion, as well as reduction of seismic action of explosion and impact of a shock air wave.4 cl, 1 tbl

Description

The invention relates to the field of blasting, namely, the compositions of industrial explosives and can be used in the manufacture of granular explosives for blasting in the mining industry and construction, while the formation of granular explosive mixtures is carried out from components containing an excess of oxygen (usually ammonium nitrate) and combustible liquid and solid additives (liquid petroleum products, coal powders, wood flour and more).

It is known to use smooth (dense, non-porous) ammonium nitrate in a mixture with liquid or solid fuel, or a mixture thereof. [Zhuchenko E.I. Industrial explosives. Part 1. Granular explosive mixtures and their use. Tutorial. - M .: MGGU, 2003].

The disadvantage of the system, consisting of ammonium nitrate and diesel fuel, is the loss of detonation ability under the influence of water and the migration of liquid fuel when using smooth and dense ammonium nitrate.

A known method of preparing explosives in which the granules of nitrate is first treated with liquid fuel, and then coated with a powdery combustible material, for example, aluminum powder, the granules of ammonium nitrate are 0.5-3 mm in size. [A.S. No. 136654, M. Cl. C06B 31/40; СВВ 21/00 dated 02/10/1960],

The disadvantage of this method is that the distribution of fuel in such a mixture is largely according to which the nitrate granules are first treated with liquid fuel and then coated with a powdery combustible material, for example, aluminum powder, not uniformly.

Known explosive composition of granulite M, as well as granular explosives granulite NP (with liquid petroleum) and granulite UP, not containing trotyl. Granulite M is a stoichiometric mixture of ammonium nitrate and mineral oil (5.5%). At the same time, the cost of granulite M is approximately 1.3 times higher than the cost of igdanite due to the use of porous ammonium nitrate, which is much more expensive than smooth ammonium nitrate, while granulite NP is a mechanical mixture of granular ammonium nitrate with liquid petroleum product. As a petroleum product in NP granulite, a mixture prepared from petroleum products, spent MMO and MCO groups, engine oils, industrial oils and diesel fuel is used. The critical detonation diameter is 120-160 mm. Granulites UP (with carbon product) have three varieties that differ in component composition and properties. UE granulites belong to class 1 industrial explosives and are intended for loading dry wells during open cast mining in rocks of medium strength. Granulite UP-1, the most widely used in blasting practice, is a mechanical mixture of coal powder, liquid oil and granular ammonium nitrate. The introduction of finely dispersed coal powder makes it possible to increase the physical stability of explosives. The critical diameter of detonation is more than 160 mm [Zhuchenko E.I. Industrial explosives. Part 1. Granular explosive mixtures and their use. Tutorial. - M .: MGGU, 2003.]

A common disadvantage of granulites containing diesel fuel as fuel is the smell and significant content of harmful hydrocarbon vapors in the face during underground mining, a significant critical diameter of detonation, a high yield of fine fractions during the development of deposits of building materials and coal, and very high seismic activity explosion and air shock during mass explosions. What is especially undesirable in the current conditions of field development due to the increase in the volume of blasting operations near settlements. Known technical solutions do not provide for the widespread use of mining waste products, in particular rubber products.

Known explosive composition containing liquid petroleum, coal powder, flaked or granulated TNT and granular ammonium nitrate, in which the total amount of liquid petroleum and coal powder is in the range of 2.0-4.5 wt. % [RF №2219151, M.K.l. C06B 31/42; C06B 25/04; СВВ 45/36 dated 06/04/2001]

The disadvantage of such compositions is the phlegmatization of flaked TNT in contact with liquid petroleum products, which reduces the actual energy characteristics of explosive compositions in general and does not allow their effective use in hard rock, especially in flooded wells. The fuel and the oxidizing agent in these compositions exist separately and mixing the components of the explosive mixture during the detonation process requires additional time and energy.

Known explosive composition containing granular explosive granulite-igdanite, granulite UP, which is a mechanical mixture of smooth granular ammonium nitrate with diesel fuel. Igdanit is intended for blasting during mechanized loading of dry and drained holes, wells and chambers in open and underground mining, not dangerous for gas and dust. Igdanite is made at stationary points located near blasting sites or with the use of mixing and charging machines directly in the process of loading wells. The diesel fuel content according to the technical specifications of TU 7276-01-04683349-96 is regulated by a value of 5.5 ± 0.5%. The critical detonation diameter is 120-160 mm. The detonation velocity in wells with diameters of 130, 150 and 200 mm is 2.35, 2.63 and 3, 03 km / s, respectively. Igdanite stratifies in the well over time, because The smooth granular ammonium nitrate GOST 2-85 currently used in explosive compositions is capable of retaining a small amount of liquid petroleum product (from 0.6-1.5%). Part of the diesel fuel flows into the lower layers of the charge and phlegmatizes it. In this case, the ratio of oxidizer and fuel is violated, which leads to a decrease in the actual performance of the AC / DT mixtures and a significant deterioration of the environmental consequences of blasting. [Zhuchenko E.I. Industrial explosives. Part 1. Granular explosive mixtures and their use. Tutorial. - M .: MGGU, 2003.]

The disadvantages of granulite-igdanite is a significant critical diameter of detonation and instability of the composition, which leads to significant losses in actual performance and reduces the effectiveness of its use in wells of medium and small diameter.

The closest in technical essence and the achieved result is the technical solutions proposed in the patent where an explosive composition is proposed for blasting by the method of drill holes and well formulations, including granular porous nitrate (93.8-90.85 wt.%), Liquid petroleum product (4 , 8-1.8 wt.%) And peat (1.4-7.4 wt.%). [RF patent No. 2209197, M.C. СВВ 31/30 dated 02.20.2002 (prototype)]

The disadvantage of this technical solution is the large critical diameter of the detonation and the low speed of detonation of the charge, as well as the high complexity of its manufacture. For the manufacture of the composition and loading of wells, mixing-charging machines cannot be used.

The above disadvantages of explosive compositions do not allow their effective use with the use of modern means of mechanization when blasting strong rocks.

An object of the invention is to increase the efficiency of explosive composition by increasing detonation parameters, the use of waste rubber products of mining enterprises, reducing the complexity of manufacturing through the use of modern mixing and charging machines, reducing the seismic effect of an explosion and the action of an air shock wave, increasing the stability of explosive composition at low cost to obtain highly effective, safer to use industrial explosive compositions, I have with a higher completeness of chemical transformations in medium and small-diameter charges, which do not require powerful intermediate detonators, as well as an effective solution to the problems of reducing the environmental consequences of mining, reducing the cost of drilling and blasting operations and the loss of minerals due to its overgrinding in the near explosion zone.

This goal is achieved by the fact that in the composition of the explosive mixture containing ammonium nitrate and the combustible component, pyrolysis oil in an amount of 4.5 wt.% To 6.5 wt.% Of the total mass of the explosive charge mixture was used as a combustible component, and also as a combustible component in addition to pyrolysis oil it can be included diesel fuel in an amount of from 0.9 wt.% to 1.3 wt.% of the total mass of the explosive charge mixture.

In addition, as a combustible component, in addition to pyrolysis oil, carbon black can be added to it in an amount of from 1.5 wt.% To 2.5 wt.%. of the total mass of the explosive charge mixture, or as a combustible component, in addition to pyrolysis oil and carbon black in an amount of 1.5 wt.% to 2.5 wt.%, used oil is added in an amount of 1.0 wt.% of the total explosive mass charge mixture.

And / or in addition to pyrolysis oil and carbon black, from it can be added from 2.0 wt.% To 3.5 wt.% Rubber crumb and powdered ammonium nitrate in an amount of from 5 wt.% To 15 wt.% Of the total mass of the explosive charge mixture, and also as a combustible component, in addition to pyrolysis oil and carbon black, from it can be added from 2.0 wt.% to 3.5 wt.% powdered peat and powdered ammonium nitrate in an amount of from 5 wt.% to 15 wt.% of the total mass explosive charge mixture.

The composition of the explosive mixture is made in the following options.

An explosive mixture is made by mixing an oxidizing agent consisting of smooth ammonium nitrate of porous and / or porous smooth ammonium nitrate and / or powdered ammonium nitrate, with a fuel mixture using pyrolysis oil, carbon black and powder rubber as the combustible component, i.e., they are used in rubber as a fuel and structural and stabilizing additives, rubber products processing products, carbon black, crumb rubber. Thus, ammonium nitrate, pre-mixed with pyrolysis oil is used as a combustible component, which contains pyrolysis oil in a proportion of 4.5 wt.% To 6.5 wt.% Of the total explosive mixture of the entire charge. To increase the speed of detonation, and the stability of the composition in the explosive mixture add diesel fuel in an amount of from 0.9 wt.% To 1.3 wt.% Of the total mass of the explosive charge mixture. In addition, as a combustible component, in addition to pyrolysis oil, carbon black can be added in an amount from 1.5 wt.% To 2.5 wt.% Of the total mass of the explosive charge mixture and waste oil in an amount of 1 wt.%.

To increase the high-explosive effect of the explosion, 1.0 wt% carbon black and 2.0 wt% to 3.5 wt% powder peat are added to the mixture of ammonium nitrate with pyrolysis oil, and powdered ammonium nitrate in a quantitative proportion of 5 is used to increase the detonation speed wt% to 25 wt% of the total mass of the explosive charge mixture.

In the manufacture of an explosive mixture, in one embodiment, 1.0 wt% carbon black and 2.0 wt% to 3.5 wt% rubber crumb are added to ammonium nitrate with pyrolysis oil, and powdered ammonium nitrate is used to increase the detonation speed quantitative proportions from 5 wt.% to 25 wt.% of the total mass of the explosive charge mixture.

Thus, as a combustible component, in addition to pyrolysis oil and carbon black in an amount of 1.5 wt.% To 2.5 wt.%, Used oil is added in an amount of 1.0 wt.%, Or from 2.0 wt.% To 3 , 5 wt.% Of rubber crumb and powdered ammonium nitrate in an amount of from 5 wt.% To 15 wt.%, Or from 2.0 wt.% To 3.5 wt.% Of powdered peat and powdered ammonium nitrate in an amount of from 5 wt.% To 15 wt.% of the total mass of the explosive charge mixture.

The use of the indicated compositions of the explosive mixture makes it possible to reduce the seismic effect of the explosion and the release of fines in its near zone, and to evaluate the crushing effect of the explosion of charges of various compositions, the test methodology involving the use of composite simulation models should be used.

The test results are shown in the table.

Analysis of the test results of the obtained mixtures and the production technologies of waterproof compounds of industrial explosives allow us to draw the following conclusions:

- the use of the indicated compositions of the explosive mixture, allows to reduce the seismic effect of the explosion and the output of fines in its immediate area of action of the explosion;

- the addition of 1.5% -2.5% carbon black increases the detonation speed of a mixture of ammonium nitrate with pyrolysis oil by 400 m / s, and the introduction of 1-1.5 wt% diesel or waste oil into the fuel mixture with pyrolysis oil allows you to increase detonation speed at 150-250 m / s.

- the use of a fuel mixture consisting of pyrolysis oil and carbon black provides an effective use of products for the disposal of rubber products, and, in comparison with the AC / DT-6 composition, increases the holding capacity of the explosive mixture up to 7.5%, the efficiency of the discharge funnel by 20%.

Claims (4)

1. The composition of the explosive mixture containing ammonium nitrate mixed with a combustible component, characterized in that it contains smooth ammonium nitrate, porous and / or porous smooth ammonium nitrate and / or powdered ammonium nitrate, and as a combustible component contains pyrolysis oil in an amount of 4 5 to 6.5 wt.% Of the total mass of the explosive mixture. 2. The composition of the explosive mixture according to p. 1, characterized in that as a combustible component, in addition to the pyrolysis oil, diesel fuel is included in it in an amount of from 0.9 to 1.3 wt.% Of the total mass of the explosive charge mixture. 3. The composition of the explosive mixture according to claim 1, characterized in that, as a combustible component, carbon black is added to it in addition to pyrolysis oil in an amount of 1.5 to 2.5 wt.% Of the total mass of the explosive charge mixture. 4. The composition of the explosive mixture according to p. 3, characterized in that, as a combustible component, in addition to pyrolysis oil and carbon black in an amount of from 1.5 to 2.5 wt.%, Used oil is added in an amount of 1.0 wt. %, or from 2.0 to 3.5 wt.% rubber crumbs and powdered ammonium nitrate in an amount of from 5 to 15 wt.%, or from 2.0 to 3.5 wt.% powder peat and powdered ammonium nitrate in an amount from 5 to 15 wt.% of the total mass of the explosive charge mixture.