RU2223254C1 - Explosive agent - Google Patents

Abstract

FIELD: commercial explosive agents used for charging of watery boreholes at blasting operations in mining industry and construction. SUBSTANCE: the claimed explosive agent contains a lump trinitrotoluene, a high- dense pyroxylin or ballistic powder in introduced between the lumps of trinitrotoluene in the form of grains of fractions of an arbitrary shape measuring not more than 20 mm, or their mix in any relation and a hydrophobic additive in the form of polysiloxan liquid. EFFECT: produced an explosive agent with an enhanced volume percent concentration of power and susceptibility to intermediate detonators in watery boreholes. 1 tbl, 5 ex

Description

 The invention relates to industrial explosives (BB) used for loading waterlogged wells during blasting in the mining and construction industries.

 The prototype of the invention is an explosive composition of Trotil-U brand UD, consisting of recycled TNT in the form of pieces of an unregulated form and a polydisperse composition with a maximum size of pieces of 45 mm and made by mechanical crushing of pressed TNT blocks extracted from ammunition, or by pouring recycled TNT into a mold ( Smirnov L.A., Tinkov O.V. Conversion, Part V. Conversion Industrial Explosives.M .: MGUIE, 1998, p. 96-97).

 The disadvantages of the known composition are as follows: low volumetric concentration of energy due to the low density of loading wells; low susceptibility to intermediate detonators in flooded wells due to saturation of the surface layers of trotyl pieces with water.

 In this regard, the technical problem solved by the invention is to increase the volumetric energy concentration and susceptibility to intermediate detonators in flooded wells.

This problem is solved in such a way that high-density pyroxylin or ballistic gunpowder is introduced into the space between the pieces of trotyl in the explosive composition, which is contained in the form of grains or fractions of arbitrary shape with a size of no more than 20 mm, or a mixture of them in any ratio and a hydrophobic additive in in the form of polysiloxane liquid in the following ratio of components, wt.%:
Polysiloxane liquid - 0.4-0.6
Pyroxylin or ballistic powder or their mixture in any ratio - 50-30
Lump TNT - Else
The indicated fraction size of high-density pyroxylin or ballistic gunpowder is an essential feature established experimentally. With large sizes of high-density pyroxylin or ballistic gunpowder, the gaps between the pieces of TNT will not be filled, which will lead to a composition with a density close to the density of the prototype substance that does not solve the technical problem.

 As for the mass. % content of the proposed composition, its examples with characteristics in comparison with the prototype are shown in the table. In this case, the tabular data of the composition are indicated based on the calculation of the proportion of polysiloxane liquid content in excess of 100%. This is due to the convenience of preparing the composition for testing purposes.

The value of the volumetric energy concentration for each composition and prototype was calculated by the formula
E _v = Qρ _zar ,
where Q is the calculated heat of explosion (kcal / kg);
ρ _zar - loading density (kg / dm ³ ).

 From the data given in the table it can be seen that compositions 1, 2, 3 possess the highest volumetric energy concentration, the content of which is determined by the boundaries of the proposed composition. Example 4 shows that a decrease in the content of lump TNT leads to a decrease in the volume concentration of energy, and a decrease in the content of polysiloxane liquid causes a decrease in susceptibility to detonation (incomplete detonation) due to incomplete wetting of the surfaces of pieces of trotyl and, especially, pyroxylin powder.

 The susceptibility to the intermediate detonator was assessed by the completeness of detonation, determined according to GOST 14839.19-69 on explosive samples pretreated with polysiloxane liquid in the indicated quantities and kept in water.

 Example 5 shows that an increase in the content of lump TNT leads to a decrease in the volume concentration of energy due to insufficient filling of all the gaps between the pieces of TNT with gunpowder, which leads to a sharp decrease in the charge density.

 An increase in the content of polysiloxane liquid will lead to an increase in the fire and explosion hazard of this explosive when it is loaded into the bunker of the mixer and charged wells due to its increased electrification, since polysiloxane liquid is a dielectric.

 The manufacture of the proposed composition is carried out in any mixer gravity type. In this treatment, only lump TNT and pyroxylin powder are exposed to polysiloxane liquid.

 The wells are loaded with the composition at the blasting sites manually from bags.

 The tests of the manufactured explosive prototypes under laboratory and testing conditions and production conditions showed their full compliance with the specified technical characteristics - high volumetric energy concentration and susceptibility to intermediate detonators designed to initiate borehole charges in flooded conditions.

Claims (1)

Explosive composition, including lump of TNT, characterized in that high-density pyroxylin or ballistic gunpowder in the form of grains or fractions of arbitrary shape with a size of not more than 20 mm or a mixture in any ratio and a hydrophobic additive in the form of polysiloxane liquid in the following ratio is introduced into the space between the pieces of TNT components, wt.%: Polysiloxane liquid 0.4-0.6 Pyroxylin or ballistic powder in the form of grains or fractions of arbitrary shape with a size of not more than 20 mm or their mixture in any ratio of 50-30 Lump TNT Else

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