RU2105748C1 - Explosive composition - Google Patents

Abstract

FIELD: explosives. SUBSTANCE: explosives finding use in blasting operations in mining industry contains ammonium nitrate, powder crumbs, colloxylin, nitroglycerol, diethylene glycol dinitrate, urea, and paraffin. Composition is prepared on the basis of ballistite technology and exhibits elevated water resistance. Powder crumbs are prepared through crushing outdated ballistite-type powders or off-use charges. EFFECT: reduced cost due to using rejects. 1 tbl

Description

 The invention relates to industrial explosive compositions, which may find application in the manufacture of explosive works in the mining industry.

 A known composition containing 46.5% nitrocellulose, 33.5% nitroglycerin or dinitrate diethylene glycol, 16% nitropentane or hexogen, water-insoluble salts and products obtained by the reaction of oleic or stearic acid with urea. The composition is mixed in water. Then, by centrifugation, the moisture content in the mixture is reduced until all moisture is removed. During the squeezing process, ammonium nitrate or sodium nitrate is added to the still wet mass so that the addition is completed until the moisture is completely compressed.

Salt is added so much that in the homogeneous final product it was 5-45% [Holland Patent N 100924, class C 06 V, 1962]
A disadvantage of the known composition is the low water resistance and the use of expensive salts of oleic and stearic acids.

 The objective of the invention is to develop an explosive composition with increased water resistance based on obsolete ballistic type gunpowder or discharged weapons.

 The problem is achieved in that the explosive composition contains, by weight. ammonium nitrate 52.0-54.0; powder crumb 27.0-29.0; colloxylin 6.0-7.0; nitroglycerin (NGC) 4.1-4.5; dinitrate diethylene glycol (DNDEG) 4.9-5.5; urea 1.0-1.5; paraffin wax 1.5-2.0.

 Explosive composition is prepared on the basis of ballistic technology. The pre-ground powder powder is mixed with a colloxylin-aqueous suspension, then the nitroesters of NGC and DNDEG, urea and paraffin are added alternately. The resulting process mass is squeezed out to a moisture content of 12%. Due to the high solubility of ammonium nitrate, dry mixing of the process mass and ammonium nitrate in a Werner-Pfleiderer type mixer is used. Then this mixture is rolled and pressed.

 An explosive composition is obtained in the form of tablets. The tablets are graphitized.

 The composition and characteristics of the compositions are given in the table.

 The composition containing, by weight. ammonium nitrate 52.0-54.0, powder crumb 27.0-29.0, colloxylin 6.0-7.0, nitroglycerin 4.1-4.5, dinitrate diethylene glycol 4.9-5.5, urea 1, 0-1.5 and paraffin 1.5-2.0, has better water resistance than the prototype. The water resistance of the proposed composition improves (the amount of solute decreases from 8 to 2.8% in 10 days).

 Ammonium nitrate (GOST 14702-79) is an oxidizing agent used to maintain oxygen balance in the composition.

 Powder crumb (from artillery powder according to OST V-84-1943, BRTT according to OST V-84-439-82, crushed to particle sizes 1-4 mm) and colloxylin grade "N" (GOST V-84-2440-90) are plasticized nitroesters: nitroglycerin (GOST V84-2386-88) and dinitrite diethylene glycol (GOST V19923-80). This mixture in the composition acts as a combustible binder. During hot through pressing, the laminar layer, which consists mainly of plasticized colloxylin and softened powder chips, forms along the walls of the press of the tool to form a hydrophobic film that protects the resulting element from moisture. The presence of paraffin in the composition also increases the hydrophobic properties of the surface layer of the tablets. The above allows the tablets to be in water for a long time without loss of performance.

 Urea (GOST 6691-77) is a stabilizer of chemical resistance of the composition.

 Paraffin (GOST 23683-89) is a technological additive. Its use improves both the rheological and hydrophobic properties of the composition.

 Testing the samples for water resistance is carried out according to the following procedure.

Samples of granular explosive composition in the form of columns, the mass of which is previously determined, are kept in standing water of constant volume at a temperature of 20 ± 5 ^o C for 4 hours, 6 days and 10 days.

 When a specified period of time elapses from a column of explosive composition, surface moisture is removed using filter paper. Samples are weighed. By the difference in the mass of the samples, determined before aging in water and after, the amount of water-soluble substance from the composition is determined. The explosiveness of the composition is determined in accordance with GOST 4546-81, the detonation speed is determined in accordance with GOST 14839.19-69, the friction sensitivity is determined in accordance with GOST V84895-83, the shock sensitivity is determined in accordance with GOST 4545-88, the brisance is in accordance with GOST 5984-81.

The advantages of the claimed composition are:
the water resistance of the composition improves from 8.0 to 2.8% of a substance dissolved in water in 10 days;
artillery gunpowder is used with an expired warranty period of storage or charges removed from armament; the problem of their disposal is solved;
production is organized at conversion production facilities, which significantly reduces its cost;
the proposed composition is economically more profitable, because it does not contain expensive salts of oleic and stearic acids, introduced to increase the water resistance of a known composition.

Claims (1)

 Explosive composition, including ammonium nitrate, nitrocellulose, nitroglycerin, dinitrate diethylene glycol and urea, characterized in that it further contains powder crumb and paraffin in the following ratio of components, wt. Ammonium nitrate 52.0 54.0
Powder Crumble 27.0 29.0
Nitroglycerin 4.1 4.5
Dinitrate diethylene glycol 4.9 5.5
Colloxylin 6.0 7.0
Urea 1.0 1.5
Paraffin 1.5 2.0o

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