RU2203873C2 - Composition of explosive ( variants ) - Google Patents

Abstract

FIELD: blasting operations, composition of commercial explosive materials used for blasting operations in mining industry. SUBSTANCE: composition of explosive material ( variant 1 ) includes hexogen with size of crystals under 0.5 mm ( 26-65 per cent by mass) and ammonium saltpetre or water-resistant ammonium saltpetre as the balance ( to 100% ). Composition of explosive material ( variant 2 ) has hexogen with size of crystal under 0.5 mm ( 26-65 per cent by mass ), water ( 1-6 per cent by mass ) and ammonium saltpetre, being the balance. Invention is aimed at development of composition of explosive material with enlarged distance of detonation transmission between two cartridges which ensures detonation transmission to distance more than 8 cm and possibility of usage of utilized hexogen. EFFECT: enlarged distance of detonation transmission. 4 cl, 1 tbl

Description

 The invention relates to blasting, and in particular to compositions of industrial explosive materials (BM) used in blasting in the mining industry.

 Ammonite 6ZHV is widely known [1, p.2, table 1, second column], which consists of 79% nitrate (waterproof ammonium nitrate) and 21% TNT. Got the most distribution. In a patronized form it is applied on underground works. It is produced in cartridges with a diameter of 32 mm, weighing 200 and 250 g. The transmission of detonation between dry cartridges of 5 cm [1, change 6 GOST 21984-76, p. 8, continued table. 2, the third column].

 One of the widespread ways to increase the energy of industrial VMs is the introduction of aluminum into their composition [2, p.235].

 Ammonal is known [1, p.2, table 1, third column], which consists of 80.5% nitrate (waterproof ammonium nitrate), 15% TNT and 4.5% aluminum powder. It is a homogeneous fine powder of gray-steel color. Low bulk, waterproof, stable during storage. It is approved for continuous use in open and underground work in mines that are not hazardous in gas or dust. Recommended for blasting hard watered rocks. Available only in a cartridge form with a diameter of 32 mm. The mass of cartridges is 200 and 250 g. The transfer of detonation at a distance between dry cartridges is greater than that of 6GV cartridge-mounted ammonites and is 6 cm [1, change 6 GOST 21984-76, p. 8, continuation of table. 2, fourth column].

 The greater the distance to which the detonation of the VM is transmitted, the less is the probability of its failure in the explosion of charged holes and wells.

 At the same time, we note that aluminum powder sharply increases the electrification of the VM, in addition, it is a fire hazardous material with a low flash point [3, p.32] and has a high cost.

 Closest to the claimed invention in terms of essential features is rocky ammonal 1 [4, GOST 21985-76, p.2, table 1, second column], which is adopted as a prototype. It consists of 66% nitrate (waterproof ammonium nitrate), 5% TNT, 24% RDX and 5% aluminum powder (pressed cartridges with a diameter of 36 and 45 mm, weighing 250 and 400 g, respectively, are used. It is used for blasting rocks with high strength from 12 and higher on the scale of Professor Protodyakonov).

 However, the detonation transmission at a distance between two dry cartridges has not increased and is the same value as for the ammonal, 6 cm. Due to the high cost, the demand for rocky ammonal has decreased and its output has practically stopped.

 The proposed VM allows to increase the distance between two cartridges when transmitting detonation and guarantees the transfer of detonation to a distance of at least 8 cm and has a lower price.

To achieve this technical result, the composition of the explosive material (option 1) contains ammonium nitrate or waterproof ammonium nitrate and hexogen or phlegmatized hexogen with a crystal size of not more than 0.5 mm in the following ratio of components, wt.%:
RDX or phlegmatized RDX - 26 - 65
Ammonium Nitrate or Waterproof Ammonium Nitrate - Else up to 100
This composition transmits detonation over long distances than the prototype, due to an increase in the content of RDX (phlegmatized RDX). The composition of the explosive material contains waterproof ammonium nitrate, which ensures the non-tracking of VM.

 Crystals of hexogen or phlegmatized RDX are used with dimensions of not more than 0.5 mm, since the large sizes of the crystals significantly reduce the surface of the explosive conversion of RDX.

The composition of the explosive material (option 2) contains ammonium nitrate, hexogen with a crystal size of not more than 0.5 mm and water in the following ratio of components, wt.%:
RDX - 26 - 65
Water - 1 - 5
Ammonium Nitrate - The rest is up to 100.

 The presence of water in the CBM in an amount of 1-5 wt.% Increases the density of the composition from 6 to 41%.

 As part of the explosive material (options) use recycled RDX, which ensures a reduction in the price of VM.

 The table shows the compositions of the investigated VM and the results of their tests, proving the advantage of the invention in comparison with the prototype.

Sources of information
1. GOST 21984-76. Ammonites are waterproof. Technical conditions

 2. Dubnov L.V., Bakharevich N.S., Romanov A.I. Industrial explosives. 3rd ed., Revised. and add. - M .: Nedra, 1988.

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

 4. GOST 21985-76. Ammonal rocky 1. Specifications.

Claims (2)

1. The composition of the explosive material containing nitrate and RDX, characterized in that it contains ammonium nitrate or waterproof ammonium nitrate, RDX or phlegmatized RDX with a crystal size of not more than 0.5 mm in the following ratio, wt. %:
RDX or phlegmatized RDX - 26 - 65
Ammonium nitrate or waterproof ammonium nitrate - Else
2. The composition of the explosive material according to claim 1, characterized in that it contains recycled hexogen. 3. The composition of the explosive material containing ammonium nitrate and hexogen, characterized in that it additionally contains water, while it contains hexogen with a crystal size of not more than 0.5 mm in the following ratio of components, wt. %:
RDX - 26 - 65
Water - 1 - 5
Ammonium Nitrate - Else
4. The composition of the explosive material according to p. 3, characterized in that it contains recycled hexogen.

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