RU2262499C1 - Industrial explosive composition (options) - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: invention relates to industrial explosive compositions employed when performing blasting operation on the earth surface of open-pit mines and open-cast mines at temperatures from -50°C to +50°C. In the first embodiment of invention, industrial explosive composition comprises hexogen with particle size less than 0.7 mm, liquid petroleum product with kinematic viscosity below 2400 mm²/s as measured at 20°C and/or coal powder, and dense granulated ammonium nitrate and/or porous granulated ammonium nitrate. Moisture content of composition is below 1.8% (in excess of 100%). Another embodiment provides composition comprising hexogen with particle size less than 0.7 mm, trotyl and/or dinitronaphthelene, liquid petroleum product and dense granulated ammonium nitrate and/or porous granulated ammonium nitrate, moisture content being 1.8% (in excess of 100%).

EFFECT: enabled preparation of high-efficiency explosives for use in blasting operations on middle- and high-strength minerals when charging dry and dried wells as well as when placing explosives into polyethylene hoses and cartridges in wells with any degree of watering.

12 cl, 1 tbl

Description

The invention relates to blasting operations, and in particular to compositions of industrial explosives used in blasting operations on the earth's surface of open pits and quarries with temperatures from minus 50 to plus 50 ° C on rocks and ores of any strength.

It is widely known [1, p.2, table 1, column “M”] a mixed explosive composition of granulite M, which is a mixture of porous ammonium nitrate (94.5%) and instrumental or absorption oil or solar oil (5.5%). Moreover, the cost of granulite M is approximately 1.3 times higher than the cost of igdanite [2, p. 33].

Igdanite [3, p. 92] is an explosive mixture of non-porous (dense) granular ammonium nitrate (94.5%) with diesel fuel (5.5%). However, igdanite stratifies in the well over time, because The granular ammonium nitrate currently used in explosive compositions is capable of retaining a small amount of diesel fuel. Part of the diesel fuel flows into the lower layers of the charge. This violates the ratio of the components, which leads to a decrease in the energy characteristics of the explosive composition. Instructions for use require the use of igdanite during one shift.

Closest to the claimed invention in terms of essential features is a patent [4], which is adopted as a prototype. The composition of the explosive mixture contains a combustible component (liquid oil), 2-23 wt.%, And a mixture of porous granular ammonium nitrate with dense granular ammonium nitrate - the rest is up to 100 wt.%.

However, the presence of granular ammonium nitrate and only non-explosive component (liquid oil) in the composition of the prototype leads to its low efficiency of the explosion.

The proposed composition of industrial explosives (options) does not have this drawback. When creating the invention, the task was to obtain a highly effective composition of industrial explosives with high efficiency of the explosion.

To achieve this technical result, the following composition of industrial explosives (options) is proposed.

Option 1. The composition of an industrial explosive contains dense granular ammonium nitrate and / or porous ammonium nitrate, a liquid oil with a kinematic viscosity of less than 2400 mm ² / s, determined at a temperature of 20 ° C, and / or coal powder and hexogen and / or phlegmatized hexogen with particle sizes less than 0.7 mm with the following components, wt.%:

RDX and / or phlegmatized RDX 0.5-40.0 Liquid oil and / or coal powder 1,0-17,0 Dense granular ammonium nitrate and / or porous granular ammonia saltpeter The rest is up to 100,

while the moisture content of the composition is less than 1.8 wt.% in excess of 100 wt.%.

Utilizable hexogen is used as RDX, and utilizable phlegmatized RDX is used as phlegmatized RDX.

As a liquid petroleum product, diesel fuel, and / or mineral oils, and / or oil extract, and / or used oils are used. The granule size of dense ammonium nitrate and porous ammonium nitrate is less than 6 mm. As ammonium nitrate, waterproof ammonium nitrate is used.

Option 2. The composition of industrial explosives contains dense granular ammonium nitrate and / or porous ammonium nitrate, liquid petroleum, RDX and / or phlegmatized RDX with particle sizes less than 0.7 mm and TNT and / or dinitronaphthalene with the following components, wt.% :

RDX and / or phlegmatized RDX 0.5-40.0 TNT and / or dinitronaphthalene 0.5-40.0 Liquid oil 1,0-17,0 Dense granular ammonium nitrate and / or porous granular ammonia saltpeter The rest is up to 100,

while the moisture content of the composition is less than 1.8 wt.% in excess of 100 wt.%.

Utilizable hexogen is used as RDX, and utilizable phlegmatized RDX is used as phlegmatized RDX.

As trotyl, scaled trotyl, and / or granular trotyl, and / or utilized flaked trotyl, and / or utilized granulated TNT with a particle size of less than 14 mm are used.

As dinitronaphthalene use scaled dinitronaphthalene, and / or granular dinitronaphthalene, and / or recyclable scaled dinitronaphthalene, and / or recyclable granular dinitronaphthalene are used.

As a liquid petroleum product, diesel fuel, and / or mineral oils, and / or oil extract, and / or used oils are used.

The granule size of dense ammonium nitrate and porous ammonium nitrate is less than 6 mm. As ammonium nitrate, waterproof ammonium nitrate is used.

The highly effective composition of an industrial explosive, which has a higher explosive efficiency than the prototype, is obtained due to the additional content of hexogen and / or phlegmatized hexogen with particle sizes less than 0.7 mm, a liquid oil with a kinematic viscosity of less than 2400 mm ² / s, defined at a temperature of 20 ° C, or / and coal powder and by optimizing the ratios between the components of the composition according to the first embodiment of the invention; and the content in the composition of RDX and / or phlegmatized RDX with particle sizes less than 0.7 mm and TNT and / or dinitronaphthalene and by optimizing the ratios between the components of the composition according to the second embodiment of the invention.

The inclusion of hexogen and / or phlegmatized hexogen with a particle size of less than 0.7 mm and a liquid oil with a kinematic viscosity of less than 2400 mm ² / s, determined at a temperature of 20 ° C, or / and coal powder is included in the industrial explosive composition according to option 1; the explosion energy of the proposed composition, which leads to an increase in the efficiency of the explosion.

For particle sizes of RDX and phlegmatized RDX over 0.7 mm, a significant decrease in the rate of the explosive transformation reaction is observed. At values of the concentration of RDX and / and phlegmatized RDX less than 0.5 wt.%, Practically no increase in the efficiency of the explosion occurs, and at values of the concentration of RDX and / and RDX more than 40 wt.%, The price of the composition significantly increases.

When the viscosity of the liquid oil is more than 2400 mm ² / s, poor mixing of the components occurs, which leads to uneven distribution of the components in the composition and, as a result, to a decrease in the efficiency of the explosion.

The amount of liquid petroleum product and / or coal powder in the composition of less than 1.0 wt.% Cannot be provided with continuous dosing, the amount of more than 17.0 wt.% Leads to a significant negative oxygen balance of the composition, which ultimately leads to a decrease in efficiency explosion action.

If the composition has a moisture content of more than 1.8 wt.% In excess of 100 wt.% After 12 months of storage, the composition may be loose.

The use of recycled RDX, utilized phlegmatized RDX leads to a decrease in the amount of explosives in warehouses and allows their replacement with an expired shelf life.

As a liquid petroleum product, diesel fuel, and / or mineral oils, and / or oil extract, and / or used oils are used.

Granules of dense ammonium nitrate and porous ammonium nitrate with a size of more than 6 mm lead to a significant decrease in the reaction rate of their explosive conversion.

Waterproof ammonium nitrate better maintains the friability of the composition during storage.

The inclusion of hexogen or / and phlegmatized hexogen with particle sizes less than 0.7 mm and TNT and / or dinitronaphthalene in the industrial explosive composition of Embodiment 2 provides an increase in the explosion energy of the proposed composition, which leads to an increase in the efficiency of the explosion. For particle sizes of RDX and / or phlegmatized RDX more than 0.7 mm, a significant decrease in the rate of the explosive transformation reaction is observed.

When the concentration of RDX and / or phlegmatized RDX, TNT and / or dinitronaphthalene is less than 0.5 wt.%, Practically no increase in the effectiveness of the explosion is determined, and when the concentration of RDX and / and phlegmatized RDX, TNT and / or dinitronaphthalene is significantly the price of the composition rises.

If the amount of liquid oil in the composition is less than 1.0 wt.%, Then it cannot be uniformly distributed over the composition, the amount of more than 17.0 wt.% Leads to a significant negative oxygen balance of the composition, which ultimately leads to a decrease in the efficiency of the explosion .

If the composition has a moisture content of more than 1.8 wt.% In excess of 100 wt.% After 12 months of storage, the composition may be loose.

The use of recycled RDX, utilized phlegmatized RDX leads to a decrease in the amount of explosives in warehouses and allows their replacement with an expired shelf life.

Granules of dense ammonium nitrate and porous ammonium nitrate with a size of more than 6 mm lead to a significant decrease in the reaction rate of their explosive conversion.

Waterproof ammonium nitrate better maintains the friability of the composition during storage.

To confirm the effectiveness of the explosion of the invention, experiments were conducted. The effectiveness of the explosion of the compositions was determined by the size of the compression of a standard lead cylinder. The research methodology was as follows.

A test composition weighing 1000 g was placed in a paper sleeve with an inner diameter of 120 mm. An intermediate detonator (industrial detonator) was filled with TNT in the form of a powder weighing 100 g. The diameter of the industrial detonator was 50 mm.

From above, along the axis of the charge, a detonator was immersed in an explosive composition at 2/3 of its height. A lead cylinder was placed on a flat steel plate. The cylinder had a diameter of 40 mm and a height of 60 mm. A truncated steel cone with a maximum diameter of 300 mm was installed on the cylinder up. Then, a cardboard stand was installed on the firing pin, providing a predetermined distance (150 mm) from the upper base to the charge. The cardboard rack was bent in the form of a lateral surface of a straight triangular prism. A cooked charge was placed on a cardboard rack. After centering the charge, an electric detonator was placed in the intermediate detonator and detonated.

As a result of a sharp impact of detonation products on the steel cone, the lead cylinder is deformed.

Before and after the explosion, the height of the lead cylinder was measured in four mutually perpendicular directions. A measure of the effectiveness of an explosion is the amount of compression of the cylinder, i.e. the difference between its average heights before and after the explosion. For each composition, at least two parallel determinations were performed and the arithmetic average rounded to the nearest integer was calculated.

The experimental data on the dependence of the compression of the lead cylinder on the composition are given in the table.

The table shows that the prototype has a compression ratio of 5-7 mm, and the proposed compositions are greater and equal to 8-33 mm. Therefore, the proposed composition has a greater explosion effect than the prototype.

The advantage of the proposed composition of industrial explosives is the possibility of using it with high efficiency of the explosion when blasting on medium and high strength rocks when charging them in dry and dried wells, as well as in wells of any degree of water cut when charging them in polyethylene sleeves and in cartridges .

Sources of information

1. Granulitis. GOST 21987-76.

2. Demidyuk G.P., Bugaysky A.N. Means of mechanization and blasting technology using granular explosives. - M .: Nedra, 1975.

3. Pozdnyakov Z. G., Rossi B. D. Handbook of industrial explosives and explosives. Vol. 2, revised. and add. - M .: Nedra, 1977, p. 92.

4. Patent RU No. 2231515 C2, 7 C 06 V 31/28, 06/27/2004, Bull. No. 18.

Table Name Compositions, wt.% The amount of compression of the lead cylinder, mm Granular Ammonium Nitrate Liquid oil RDX (phlegmatized RDX) TNT Dinitronaphthalene Coal powder Humidity, in excess of 100 wt.% Dense Porous Diesel fuel Oil extract Prototype 19.6 78,4 2.0 - - - - - - 5 15.4 61.6 23.0 - - - - - - 6 71.2 17.8 11.0 - - - - - - 7 Suggested formulations: Option 1 1.1 - 98.5 1,0 - 0.5 - - - 0.3 8 1.2 43.0 - 17.0 - (40.0 *) - - 1.8 32 1.3 - 75.5 - 2,5 (21.0) - 1,0 0.4 12 1.4 75.5 - 2.0 - 21.0 * - - 1,5 0.5 eighteen 1.5 71.5 - - 2.5 **** (26.0) - - 0.6 22 1.6 23.0 50,0 1,0 - 26.0 - - - 0.3 24 1.7 - 74.0 - - 9.0 - - 17 0.2 thirteen Option 2 2.1 18.0 80.0 - 1,0 0.5 0.5 - - 0.2 8 2.2 - 42.5 - 17.0 40,0 - 0.5 *** - 1.8 33 2.3 - 58.5 1,0 - (0.5) 40.0 * - 0.3 14 2.4 34 40,0 - 2.5 **** 21.0 2.5 *** - - 0.5 19 2.5 - 74.0 2,5 - (21.0) 2.5 ** - - 0.6 21 2.6 47.0 - - 12.0 1,0 40.0 * - - 1,2 thirty 2.7 - 52.0 17.0 - 11.0 - 20.0 ** - 1.8 eighteen * - recyclable, ** - granular, *** - flaky, **** - used oil.

Claims (12)

1. The composition of industrial explosives, including dense granular ammonium nitrate and / or porous ammonium nitrate, characterized in that it contains hexogen and / or phlegmatized hexogen with particle sizes less than 0.7 mm and a liquid oil with a kinematic viscosity of less than 2400 mm ² / s, determined at a temperature of 20 ° C, or / and coal powder in the following components, wt.%: RDX and / or phlegmatized RDX 0.5-40.0 Liquid oil and / or coal powder 1.0-17.0 Dense granular ammonium nitrate and / or porous granular ammonia nitrate rest while the moisture content of the composition is less than 1.8 wt.% in excess of 100 wt.%. 2. The composition according to claim 1, characterized in that utilized hexogen is used as RDX, and utilized phlegmatized RDX is used as phlegmatized RDX. 3. The composition according to claim 1, characterized in that as a liquid petroleum product using diesel fuel, and / or mineral oil, and / or oil extract, and / or waste oil. 4. The composition according to claim 1, characterized in that the granule size of dense ammonium nitrate and porous ammonium nitrate is less than 6 mm 5. The composition according to claim 1, characterized in that as ammonium nitrate use waterproof ammonium nitrate. 6. The composition of industrial explosives, including dense granular ammonium nitrate and / or porous ammonium nitrate and liquid petroleum product, characterized in that it contains RDX and / or phlegmatized RDX with particle sizes less than 0.7 mm and TNT and / or dinitronaphthalene in the following the content of components, wt.%: RDX and / or phlegmatized RDX 0.5-40.0 TNT and / or dinitronaphthalene 0.5-40.0 Liquid oil 1,0-17,0 Dense granular ammonium nitrate and / or porous granular ammonia saltpeter Rest while the moisture content of the composition is less than 1.8 wt.% in excess of 100 wt.%. 7. The composition according to claim 6, characterized in that utilized hexogen is used as RDX, and utilized phlegmatized RDX is used as phlegmatized RDX. 8. The composition according to claim 6, characterized in that flaky trotyl, and / or granular trotyl, and / or utilized flaked trotyl, and / or recycled granulated trotyl with particle sizes less than 14 mm are used as trotyl. 9. The composition according to claim 6, characterized in that as the dinitronaphthalene use scaled dinitronaphthalene, and / or granular dinitronaphthalene, and / or recyclable scaled dinitronaphthalene, and / or recyclable granular dinitronaphthalene. 10. The composition according to claim 6, characterized in that as a liquid oil use diesel fuel, and / or mineral oils, and / or oil extract, and / or used oils. 11. The composition according to claim 6, characterized in that the granule size of dense ammonium nitrate and porous ammonium nitrate is less than 6 mm 12. The composition according to claim 6, characterized in that as ammonium nitrate use waterproof ammonium nitrate.