RU2055824C1 - Method to destruct made of explosives pieces with simultaneous utilization of explosives - Google Patents

Abstract

FIELD: explosives extraction from shells with charges utilization. SUBSTANCE: method provides for working medium extraction on piece surface from made of explosive pieces with following joint processing of pieces shells and working medium into granules or castings of industrial explosives. As working medium they use liquid phase or mixture of liquid and crystal phases of prising explosives with or without special addition and /or products of made of explosives pieces destruction, that are dispersed in melt of trinitrotoluene. EFFECT: simplified process. 3 cl

Description

 The invention relates to chemical technology, in particular to methods for extracting explosives from shells, to methods for the destruction of charges, drafts, pieces or castings from explosives, as well as to methods for the disposal of explosives extracted from charges and resulting from the destruction of charges, drafts, pieces or castings.

 The objective of the invention is to provide a technology for the destruction of products from explosives with simultaneous joint processing of the products of the destruction of products from explosives and a working fluid into granular industrial explosives or castings, while ensuring increased water resistance of industrial explosives obtained.

 This is achieved by the fact that the method of destruction of products from explosives with the simultaneous disposal of explosives includes feeding to the surface of the product from the explosive substance of the working fluid and subsequent joint processing of the products of the destruction of the product from explosive and working fluid into granules, or casting of industrial explosives, this as a working fluid using a liquid phase or a mixture of a liquid phase and a crystalline phase of blasting explosives with or without targeted additives, and / or uktov destruction products from the explosive TNT distributed in the melt.

 In the method, aerosil, oxyzine, koloxylin, ceresin, halovax, stearin, aluminum, dyes, graphite are used as target additives. In the method, the products of the destruction of the explosive product distributed in the molten trinitrotoluene are used in the form of a solution or emulsion, or a suspension of these products in the molten trinitrotoluene.

 PRI me R 1. The destruction and disposal of a charge weighing 100 kg, consisting of phlegmatized RDX. The composition of the charge is as follows, kg: RDX 88; ceresin 6; stearin 5; dye 1.

To destroy the charge, 100 kg of a suspension of RDX and graphite in the TNT melt were used. The initial composition of the working fluid is as follows, kg: TNT 90; hexogen 2; graphite 8. The mode of destruction of the charge: the temperature of the working fluid 85 ^about With the pressure of 0.01 kg / cm ² . The sequence of operations: the initial working fluid was applied to the surface of the charge, as a result of which the charge was partially destroyed: the products of the destruction of the charge were mixed with the working fluid and were used again in the mixture, as part of the new working fluid formed for the repeated erosion procedure; the operation of erosion of the charge by the products of its destruction in the mixture with the working fluid is repeated 55 times. The mixture of products of its destruction resulting from the liquidation of the charge with the original working fluid, in an amount of 200 kg, was jointly processed into a granular explosive of the following composition, TNT 45; RDX 45; ceresin 3; stearin 2.5; graphite 4; dye 0.5.

PRI me R 2. The destruction and disposal of a charge weighing 12 kg, consisting of phlegmatized RDX in a mixture with aluminum powder. The composition of the charge is as follows, kg: hexogen 9; aluminum powder 2.5; oxyzine 0.5. To destroy the charge used 8 kg of the working fluid, the initial amount of the following composition, kg: TNT 6.5; RDX 1.0; halovax 0.5. The temperature of the working fluid is 120 ^° C, the pressure is 100 kg / cm ² . The sequence of operations is similar to example 1. The number of erosion cycles 25. The mixture of products of its destruction resulting from the liquidation of the charge with the original working fluid in the amount of 20 kg is jointly processed into a granular industrial explosive (PVV) of the following composition, TNT 32.5; RDX 50; aluminum powder 12.5; oxyzine 2.5; halovax 2.5.

 PRI me R 3. The destruction and disposal of a charge weighing 1 kg of phlegmatized HMX. The composition of the charge is as follows, kg: octogen 9; oxyzine 1.

To destroy the charge used 1 kg of a mixture of TNT with HMX. The composition of the original working fluid, next, TNT 80; octogen 20. The temperature of the working fluid 130 ^about With the pressure of 1000 kg / cm ² . The sequence of operations is similar to example 1. The number of erosion cycles 15. The mixture of its products and the original working fluid resulting from erosion of the charge is jointly processed into a granular explosive of the following composition, TNT 40; HMX 55; oxyzine 5.

PRI me R 4. The destruction and disposal of a charge weighing 1200 kg, consisting of a mixture of RDX with TNT. The composition of the charge is the following, TNT 50; RDX 50% To destroy the charge, 800 kg of paraffin emulsion in TNT melt were used. The initial composition of the working fluid is as follows, kg: TNT 680 kg; paraffin 120. The temperature of the working fluid is 100 ^° C, the pressure is 1000 kg / cm ² . The sequence of operations is similar to example 1. The number of erosion cycles 3. The mixture resulting from the destruction of the charge is processed into granules of an industrial explosive of the following composition, TNT 44; RDX 50; paraffin 6.

PRI me R 5. The destruction and disposal of a charge weighing 300 kg The composition of the charge is as follows, kg: TNT 50; RDX 150; aluminum powder 50; dye 5; paraffin 45. For the destruction of the charge used 4200 kg of a suspension of aluminum powder in the TNT melt. The composition of the original working fluid is as follows, TNT 80; aluminum 19; Aerosil 1. The temperature of the working fluid is 100 ^° C, the pressure is 10 kg / cm ² . The charge is destroyed as a result of a single supply of the working fluid to the surface of the charge. A mixture of products of charge destruction and the working fluid in a total amount of 4500 kg is processed into granules of industrial explosives.

PRI me R 6. The destruction and disposal of a charge weighing 5 kg, consisting of a mixture of trinitroglycerin with trinitrotoluene and with hexogen. The charge composition is the following, RDX 90; trinitrotoluene 3; 7. For disposal of glyceryl trinitrate used 50 kg of TNT alloy with glyceryl trinitrate in a ratio of 30% to 70% at ³⁰ ° C under a pressure of 0.1 kg / cm ^2. The charge is destroyed as a result of a single supply of the working fluid to the surface of the charge. A mixture of the resulting products and the working fluid is processed into explosive castings.

EXAMPLE EXAMPLE 7 Destruction and utilization charging 5 kg, consisting of a mixture of TNT with dinitronaphthalene in the ratio 50% to 50% for recycling used 100 kg of alloy dinitronaphthalene with TNT in the ratio of 5% to 95% at a temperature of 180 ^C. under a pressure of 0.5 kg / cm ² . The charge is destroyed as a result of a single supply of the working fluid to the surface of the charge. A mixture of charge disruption products and a working fluid is processed into explosive castings.

PRI me R 8. The destruction and disposal of 1000 pieces of charge from phlegmatized heating elements. The mass of each charge is 0.05 kg, the composition is as follows, kg: TEN 0.045; stearin 0.005. To destroy the charges used 50 kg of the original working fluid. The composition is as follows, TNT 40; dinitrotoluene 20; colloxylin 20; stearin 10; graphite 10. The temperature of the working fluid 70 ^about With the pressure of 5 kg / cm ² . The disposal scheme is as follows: the charge is installed opposite the nozzle forming the jet of the working fluid, the destruction of the charge is ensured with a single supply cycle of the working fluid in full; charge destruction products are mixed with the working fluid and are used to destroy the subsequent charge installed in the position opposite the nozzle; a mixture of the original working fluid with the destruction products of the entire number of charges is processed into a plastic explosive of the following composition, TNT 25; TEN 45; dinitrotoluene 10; colloxylin 10; stearin 15; graphite 5.

PRI me R 9. The destruction and disposal of 1000 pieces of charges from phlegmatized RDX. The mass of each charge is 0.25 kg, the composition is the following, RDX 98, ceresin 2. For disposal, 250 kg of a mixture of TNT with ammonium nitrate in a ratio of 95% to 5% were used. The temperature of the mixture is 95 ^° C. The disposal scheme is as follows: the charges are placed in a volumetric mixer and flooded with a working fluid under a pressure of 0.01 kg / cm ² . The destruction of charges is carried out by feeding the working fluid to the surface of the charges during the operation of the mixer. The charge destruction products in a mixture with a working fluid are processed together into explosive granules.

PRI me R 10. The destruction and disposal of 1000 pieces of charges from phlegmatized HMX. The mass of each charge is 0.25 kg, the composition is as follows, hexogen 90; oksizin 10. For utilization, 240 kg of TNT and 1 kg of HMX were used. Recycling scheme is as follows: initially 25 kg produced a working fluid consisting of 24 kg of TNT, and 1 kg of HMX, this mixture at a temperature of 130 ^{° C} under a pressure of 1.5 kg / cm ² 100 sequentially blurred charge 48 kg of the mixture of charges and degradation products of the working the bodies are processed together into PVV granules, and 24 kg of TNT are added to the remaining 2 kg of the mixture, the next 100 pieces of charges are destroyed by the resulting mixture and the procedure is repeated until all charges are destroyed. The last portion of the mixture of the working fluid with the products of the destruction of charges completely processed into granules PVV. As a result, a total of 491 kg of explosives of the following composition was obtained, kg: trotyl 240, hexogen 226, oxyzine 25.

The technology of this method, not at one of the stages, does not imply the occurrence of harmful emissions in the form of liquid, solid or gaseous waste, therefore, does not imply the cost of their disposal. The working fluid used in the method is not chemically aggressive with respect to aluminum, therefore, the scope of the method extends to charges containing non-passivated aluminum powders. The working fluid is substantially insoluble in water (solubility of TNT is about 0.04% at 20 ° ^C), which indicates a high water resistance obtained by industrial explosives. In accordance with the standard for industrial explosives, PVV are waterproof, losing within 4 hours under a layer of water no more than 10% of the soluble component, based on which it follows that the explosives obtained in the above examples are waterproof. TNT and its mixtures with dinitrotoluene, dinitronaphthalene, colloxylin well wet the surface, for example, crystals of RDX, HMX, TENA, which ensures high uniformity of alloys and suspensions, which are necessary to obtain high-quality PVV in the form of castings or granules at minimal cost. The additives used in the above examples play the role of thickeners, suspension stabilizers, phlegmatizers, antistatic agents.

Claims (3)

 1. METHOD OF DESTRUCTION OF PRODUCTS FROM EXPLOSIVES WITH SIMULTANEOUS DISPOSAL OF EXPLOSIVES, including feeding to the surface of the product from the explosive substance of the working fluid and subsequent joint processing of the products of destruction of the product from the explosive and working fluid into granules or casting industrial explosives bodies use a liquid phase or a mixture of liquid and crystalline phases of blasting explosives with or without targeted additives and / or products of destruction of the product and h explosives distributed in the molten trinitrotoluene.  2. The method according to claim 1, characterized in that aerosil, oxyzine, halovax, stearin, aluminum, dyes, graphite are used as target additives.  3. The method according to claim 1 or 2, characterized in that the products of the destruction of the product from explosives distributed in the melt of trinitrotoluene are used in the form of a solution, or emulsion, or suspension of these products in the melt of trinitrotoluene.