RU2211824C1 - Blasting composition - Google Patents

Abstract

FIELD: explosives. SUBSTANCE: invention aims to develop blasting compositions suitable for blasting operations using blast- hole and deep-hole charges. Composition according to invention contains trinitrotoluene (granulated of scaly), liquid petroleum product, metal fuel: powder of aluminum or siliceous aluminum, or ferrosilicon, or their mixture with particle size of sieve 05 residue 10%, water, and ammonium nitrate, the latter being dense or porous, with particle size 0.5-3.5 mm or 0.05-1.5 mm, or mixture thereof 3:1 to 1:2. Water can be added either during preparation of blasting composition or when charging blast-holes and deep-holes. EFFECT: improved performance characteristics and reduced content of trinitrotoluene. 6 cl, 2 tbl

Description

 The invention relates to the development of explosive compositions (AF) used for blasting by the method of borehole or hole charges.

The following basic requirements are imposed on newly developed aircraft:
- failure-free detonation of aircraft with maximum safety of its manufacture, transportation, storage and use;
- high energy characteristics with a balanced composition of the oxygen balance;
- mechanization of drilling and blasting operations through the use of a mechanized method of loading holes and wells;
- use of domestic raw materials.

 These requirements can be achieved in the development of industrial explosive compositions with the appropriate choice and ratio of components of the explosive composition.

The cheapest and most secure source of energy for industrial explosives is ammonium nitrate, which in combination with liquid petroleum products forms explosive mixtures with an explosion heat of about 3,800 kJ / kg [1], and when aluminum or other high-calorie metals are added, up to 5,200 kJ / kg [2,3,4]. Nitrate-containing explosives, incorporating TNT as an explosive sensitizer, are characterized by high detonation ability, which persists when the compositions are wetted [5,6,7]. They are used to break off waterless and weakly watered rocks of any strength in the temperature range ± 50 ^o C.

Known granular ammonium nitrate explosive composition - granitol-7A (TU 84-912-81), including, wt.%:
TNT - 48.0-52.0
Ammonium nitrate - 28.5-32.5
Aluminum - 8.5-11.5
Mineral oil - 3.0-4.0
Colloxylin - 0.5-1.5
Vinylite - 0.5-1.5
Water - 1.0-7.0,
adopted as a prototype of the claimed composition. The disadvantage of the prototype composition is the high gas harmfulness of the explosion products, high cost, manufacturing complexity.

 An object of the invention was to increase the efficiency of the explosive composition by reducing the cost, improving the environmental conditions for blasting, maximizing the release of explosive energy with a reduced content of sensitizer (explosive and metal fuel), expanding the range of explosives.

The technical problem is solved by creating an explosive composition, including ammonium nitrate, liquid petroleum, TNT, water and metal fuel, which are selected as powders of aluminum, or silicon aluminum, or ferrosilicon, or their mixture with a particle size on the sieve of 05 no more than 10 wt. .%, and the incoming components are taken in the following ratio, wt.%:
TNT - 3.0-15.0
Liquid oil - 0.8-3.5
Powder of aluminum, or silicon aluminum, or ferrosilicon, or a mixture thereof with particle sizes by residue on sieve 05 not more than 10 wt.% - 3.0-10.0
Water - 0.5-5.0
Ammonium Nitrate - Else
To expand the raw material base, granulated TNT is used as flaked or granulated (granulotol) TNT, or a mixture thereof, especially in conditions of explosive production at blasting sites. As ammonium nitrate, solid nitrate with a bulk density of 0.9-1.0 g / cm ³ or porous with a bulk density of 0.70-0.84 g / cm ^{3 of} nitrate with a grain size of 0.5-3.5 mm, or 0.05-1.5 mm or a mixture thereof in a ratio of 3: 1 to 1: 2. As a liquid petroleum product, diesel fuel, or mineral oils, or a mixture thereof is used.

 The technical result of the invention is achieved due to the selected components. their ratio and dispersion, providing optimal values of the completeness of chemical conversion, oxygen balance, stability of the component composition, detonation parameters of the proposed aircraft.

Due to the polydispersity, grade (dense or porous) ammonium nitrate, bulk density can be adjusted from 780 to 950 kg / m ³ , detonation sensitivity and aircraft performance.

 A decrease of 3-15 times the amount of injected explosive sensitizer (TNT) compared with the composition of the prototype leads to a significant reduction in the cost of the claimed aircraft.

 Balancing the BC in terms of oxidizer and fuel content (oxygen balance close to zero) provides and improves the environmental characteristics of the explosion products (the minimum possible amount of toxic products of incomplete oxidation - carbon and nitrogen oxides).

 One of the ways to reduce the cost of drilling and blasting is to mechanize the process of loading holes and boreholes using pneumatic chargers that provide borehole charges of a higher density than with a manual loading method. Higher charge densities allow you to load more aircraft into the wells, and therefore, increase the drilling grid or reduce the diameter of the well. The safety of the pneumatic charging process is largely determined by the properties of its constituent components and, first of all, by electrical resistance.

 Aircraft are suitable for pneumatic charging, in the composition of which conductive components are introduced, which prevent the accumulation of charges of static electricity. Such components in the claimed composition include metallic fuel: powders of aluminum, silicon aluminum, ferrosilicon (electrical resistivity for aluminum 2.65 μOhm • cm, aluminum alloys with silicon - 4.5 μOhm • cm; iron alloys with silicon 4.5- 6.2 μOhm • cm), as well as humidification (water input) of the aircraft.

 The introduction into the aircraft as an oxidizing agent of granular ammonium nitrate, and as a combustible mixture of trotyl, metal powder and liquid petroleum, ensures high explosive parameters of the aircraft and its environmental safety at a minimal cost.

 High explosive performance of the aircraft is ensured by the uniform distribution of metal powder on the surface of the granules of ammonium nitrate and TNT moistened with liquid oil, as well as by the high sensitizing effect of the combined TNT and metal powder.

 In the inventive composition, powders of aluminum, or silicon aluminum, or ferrosilicon, or mixtures thereof having a similar fractional composition, but differing in their calorific value, were selected as metal fuel. The most beneficial from an energy point of view is aluminum in the form of powder, but it is expensive and scarce. In order to reduce the cost, the metal fuel in the proposed composition is taken in the form of a powder with a particle size of the residue on sieve 05 of not more than 10 wt.%. By changing the type of metal fuel, its amount (with a stoichiometric ratio of the components of the aircraft), the energy characteristics of the proposed aircraft are regulated, which makes it possible to conduct explosive work on rocks of any strength.

The combined presence of TNT and metallic fuel (up to 30 wt.%) Does not impair the detonation characteristics of the aircraft — d _cr. up to 50 mm, which allows you to use it for loading holes, thereby expanding the scope of the claimed aircraft.

 The amount of water in the proposed aircraft is determined by the conditions of its application. When pneumatic charging holes and wells, the water content should be at least 2 wt.%. When manually loading wells and mechanized using charging machines with a screw system for supplying explosives, the water content in the aircraft is 0.5-1 wt.%. Water can be introduced both in the manufacture of aircraft and in the process of pneumo-charging holes and wells to reduce the accumulation of charges of static electricity. The inventive BC allows the use of moistened ammonium nitrate without additional drying (the water content in accordance with GOST in dense ammonium nitrate is not more than 0.6 wt.%; In porous - not more than 0.9 wt.%), In particular, when the water content (moisture) of BC is up to 1 wt.%, You can partially or completely not add water additionally, which leads to a reduction in energy, labor and manufacturing costs. Water in the proposed aircraft containing sensitizing additives - trotyl and metal fuel, is not a phlegmatizer, it acts as an oxidizing agent in relation to metal fuel. Water in ammonium nitrate explosive composition is in the form of an aqueous solution of ammonium nitrate, so it is evenly distributed on the surface of ammonium nitrate. An oil film of liquid oil on the surface of TNT granules and ammonium nitrate provides a more tight contact between the oxidizing agent and fuel, in addition, the oil film firmly retains water sorbed by ammonium nitrate, preventing dropping and aggregation of metal fuel particles, redistribution of components during transportation, storage and holes and wells.

 The composition of the inventive aircraft and its main characteristics in comparison with the prototype are shown in table 1.

 As follows from table 1, the proposed composition is superior to the prototype in terms of safety of manufacture and use - it has lower values of sensitivity to impact and friction; less toxic. Having lower values of the heat of explosion and the speed of detonation, it is not inferior to the prototype in the critical diameter of detonation, which allows it to be used for loading holes and boreholes.

 The inventive aircraft is used for blasting on rocks of any strength, by changing the ratio of the components you can adjust the heat of the explosion while maintaining an oxygen balance close to zero.

 As a liquid petroleum product, diesel fuel, fuel oil, solar oil and other mineral oils are used, which have almost the same elemental composition, close operational properties.

 Ammonium nitrate, TNT, metal fuel, liquid petroleum products are produced by the domestic industry according to the existing regulatory and technical documentation.

 Examples of samples of the explosive composition of the invention are shown in table 2.

 The fabricated samples have low sensitivity to mechanical stress (impact, friction), a balanced composition in terms of oxidizer-fuel content (oxygen balance close to zero), differing in the heat of explosion, have practically the same values of detonation velocity and critical detonation diameter.

 Manufactured compositions retain flowability, uniform distribution of components during storage and transportation of aircraft.

 The manufacture of the inventive aircraft is carried out in mixers used for the production of ammonium nitrate explosives, in gravity-type mixing and charging machines, as well as in machines equipped with a screw system for feeding components.

 The inventive explosive composition was tested during rock breaking with a strength of up to 20 on the MM scale Protodyakonova. The loading of cords with diameters of 10 mm and manual and mechanized loading of wells with a diameter of 105-256 mm were carried out. The drilling of holes and boreholes was carried out without complications: rashes of aircraft during pneumatic loading of deep ascending wells and separation of components were not observed. The initiation of charges was carried out in the generally accepted way. Abnormal operation of borehole and borehole charges is not recorded.

Sources of information
1. L.V. Dubnov, N.S. Bakharevich, A.I. Romanov. Industrial explosives. - M .: Nedra, 1988.

 2. Granulites AC-4V, AC-8V TU 84-620-82.

 3. Patent of Russia 2021240.

 4. Patent of Russia 2142446.

 5. Patent of Russia 2155740.

 6. Patent of Russia 2130447.

 7. Grammonites 30/70, 50/50, GOST 21988 - 76.

 8. Technical specifications TU 84-912-81, 1981, granitol - 7A.

Claims (5)

1. Explosive composition, including ammonium nitrate, liquid petroleum product, TNT, water and metal fuel, characterized in that it contains aluminum or silicon silicon or ferrosilicon powder as a metal fuel, or a mixture thereof with a particle size of residue on sieve 05 of not more than 10 wt. % in the following ratio of components wt. %:
TNT - 3.0-15.0
Liquid oil - 0.8-3.5
Powder of aluminum, or siliceous aluminum, or ferrosilicon, or a mixture thereof with a particle size of the residue on sieve 05 no more than 10 wt. % - 3.0-10.0
Water - 0.5-5.0
Ammonium Nitrate - Else
2. The composition according to p. 1, characterized in that as ammonium nitrate it contains a dense or porous ammonium nitrate or a mixture thereof.  3. The composition according to p. 1 or 2, characterized in that as ammonium nitrate it contains ammonium nitrate with a grain size of 0.5-3.5 mm or 0.05 - 1.5 mm or a mixture thereof in a ratio of 3: 1 to 1: 2.  4. The composition according to p. 1, characterized in that as TNT it contains granular or flaky, or a mixture thereof.  5. The composition according to p. 1, characterized in that as a liquid petroleum product it contains diesel fuel, or mineral oils, or a mixture thereof.  6. The composition according to p. 1, characterized in that the water is introduced into the composition during the manufacturing of the explosive composition or during the loading of holes and boreholes, or part of the water is introduced during the manufacturing of the explosive composition, and part when loading wells and boreholes.

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