RU2049765C1 - Composition of protective explosive - Google Patents

Abstract

FIELD: expolosives. SUBSTANCE: composition has, a mixture of nitroglycerol and diethylene glycol dinitrate at the ratio from 60:40 to 70:30 8.4-11.2; ammonium chloride 17.4-23.2; sodium chloride 4.2-5.6; carboxymethylcellulose sodium salt 1.5-2.0; calcium stearate 0.6-0.8; granulated ammonium nitrate 15.8-31.6; scale-shaped trotyl 4.2-8.4; soda ash 0.05-0.1; colloidal cotton 0.1-0.2, and sodium nitrate the rest up to 100. Composition properties: heat explosion is 3010-3340 kJ/kg, gas volume is 630-690 l/kg, efficiency is 155-200 cub.cm, brisance is 6.7-7.3 mm, protective properties of proposed composition correspond to the V-th class. Composition is used in mines. EFFECT: improved properties of composition. 1 tbl

Description

 The invention relates to blasting, and in particular to safety explosives used in mines hazardous in gas and dust.

 Known compositions of safety explosives based on ion-exchange salts, for example, ammonium chloride and sodium nitrate. Their disadvantage is poor performance.

 Also known is a safety explosive containing nitroesters, sodium chloride, granular ammonium nitrate and wood flour. The disadvantage of this explosive is the low safety properties.

 The closest in composition is a safety explosive containing the following components, wt.

A mixture of nitroglycerin with
diethylene glycoldinite -
ratom regarding
from 60:40 to 70:30 6.5-7.5
Ammonium Chloride 20.09-23.18
Sodium carboxylic acid
methyl cellulose 0.98-1.13
Calcium Stearate 0.52-0.6
Alum potassium alum 4.53-5.23
Talc 0.52-0.6
Ammonium nitrate gran-
machined
2% solidol 25.0-35.0
Sodium nitrate ost. up to 100
Soda ash
(over 100%) 0.33-0.38
Collodion cotton
(over 100%) 0.09-0.11
The main disadvantage of the known composition of the explosive is the loss of protective properties during storage. This is due to the fact that under the action of solidol, granules of ammonium nitrate are destroyed.

 The aim of the invention is the stabilization of safety properties during storage of explosives.

 This goal is achieved by the fact that the composition of the safety explosive containing a mixture of nitroglycerin and diethylene glycol dinitrate in a ratio of 60: 40 to 70:30, ammonium chloride, sodium carboxymethyl cellulose, calcium stearate, granular ammonium nitrate, sodium nitrate, soda ash and collodion cotton, additionally introduced trotyl flake and sodium chloride in the following ratio of components, wt.

A mixture of nitroglycerin and
diethylene glycol dinitrate
in relation to
60:40 to 70:30 8.4-11.2
Ammonium chloride 17.4-23.2
Sodium Chloride 4.2-5.6
Sodium carboxylic acid
methyl cellulose 1.5-2.0
Calcium Stearate 0.6-0.8
Ammonium nitrate
granular 31.6-15.8
Scaled TNT 8.4-4.2
Soda Ash 0.05-0.1
Collodion cotton 0.1-0.2
Sodium nitrate

 The technology for preparing a safety explosive includes the following sequence of operations.

 Ammonium chloride, sodium chloride, sodium salt of carboxymethyl cellulose, calcium stearate, sodium nitrate, soda ash and collodion cotton are loaded into the mixer and then the mixture is stirred for 7 minutes, after which a mixture of nitroglycerin with diethylene glycol dinitrate is added and mixed for another 15 minutes. Flaked trotyl and granular ammonium nitrate are added to the mixture last and mixed for 10 minutes. With this cooking technology, nitroesters are absorbed into fewer components, but due to an increase in their content in these components, the detonation ability of the entire explosive increases.

 According to the above technology, prototype explosives were manufactured with the contents of the components within the claimed limits, as well as below the lower limit and above the upper limit.

 The results of comparative tests of prototypes are shown in the table.

 The composition is characterized by stability of safety properties during the entire storage period and high performance. When the content of the components is below the declared limits, the working capacity decreases and in terms of basic indicators the composition is inferior to the known safety explosives of this class. When the content of the components is higher than the declared limits, a decrease in the working capacity of the composition also occurs and the safety properties deteriorate. This conclusion is confirmed by the test results of prototypes (5-7): there are cases of ignition of a methane-air mixture when a charge explodes in a channel mortar with direct and reverse initiation and when a freely suspended charge is blown, the detonation transmission is deteriorated at a distance.

 The test results indicate that the explosives, when the content of the components is within the stated limits, satisfies the requirements for explosives in class safety properties.

Claims (1)

 COMPOSITION OF A SAFETY EXPLOSIVE SUBSTANCE, including a mixture of nitroglycerin and diethylene glycol dinitrate in a ratio of 60:40 to 70:30, ammonium chloride, sodium carboxymethyl cellulose, calcium stearate, granular ammonium nitrate, sodium nitrate, which is stabilized with soda and safety properties during storage, it additionally contains flaked TNT and sodium chloride in the following ratio, wt. A mixture of nitroglycerin and diethylene glycol dinitrate in a ratio of 60:40 - 70:30 8.4-11.2
Ammonium chloride 17.4-23.2
Sodium Chloride 4.2-5.6
Carboxymethyl cellulose sodium salt 1.5-2.0
Calcium Stearate 0.6-0.8
Granular ammonium nitrate 15.8-31.6
Scaled TNT 4.2-8.4
Soda Ash 0.05-0.1
Colloidal cotton 0.1-0.2
Sodium Nitrate Else

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