RU2087844C1 - Method of reclamation of ammunition - Google Patents

Abstract

FIELD: reclamation of ammunition with production of industrial (cluster) diamonds and metal waste in the form of ammunition fragments. SUBSTANCE: at blasting of at least one ammunition or part of it in a reservoir filled with liquid medium, whose acoustic stiffness is lower than the acoustic stiffness of the reservoir walls, a diamond-bearing mixture and metal fragments of ammunition suitable for further processing are obtained. EFFECT: enhanced capability to the level of mass industrial process, explosionproofness, adaptability to manufacture, ecological safety. 7 cl, 1 dwg

Description

 The invention relates to the field of disposal of ammunition to obtain technical (cluster) diamonds and metal waste, suitable for further processing.

A known method of producing materials in a dispersed state with a cluster structure of particles (diamonds, in particular) by detonating an explosive charge in the presence of a dispersed liquid [1]
A known method of disposal of ammunition, in which the explosives obtained during the munition of ammunition are used to obtain ultrafine (cluster) diamonds [2]
The disadvantage of these methods is the impossibility of their use for the disposal of ammunition without their preliminary equipping in order to obtain an explosive charge.

 The objective of the present invention is to increase the productivity of ammunition disposal to the level of mass industrial process, ensuring explosion safety, manufacturability and environmental safety.

 The problem is solved in that in the method of disposing of ammunition, at least one of the ammunition or part thereof is blown up in a liquid medium having a free surface and located in a tank whose wall material has an acoustic rigidity higher than the acoustic rigidity of the liquid medium, while destroying the gas bubble from detonation products by asymmetric shock-wave impact of ammunition. In this case, the bottom of the tank may have a concave shape, which allows you to increase the impact on the gas bubble. The use of a divider installed between the free surface of the liquid medium and the ammunition allows to complete the fragmentation of fragments of a gas bubble. To protect the walls of the tank from destruction during the blasting process, gas is supplied to the zone adjacent to the inner side surface of the tank.

 The claimed method can be disposed of high-explosive, fragmentation, high-explosive and cumulative ammunition in whole or in part.

 The method is as follows (see drawing).

 Disposable ammunition 4 (a group of ammunition or part of the ammunition) is installed in the tank 1 with the liquid medium 2 using the fixing means 3 at the same distance from the side walls of the tank between the divider 5 located under the surface of the liquid medium and the pallet 6. Parameters of the tank for the liquid medium, as which water can be used, depend on the mass of the explosive in the product or products being blown up at one time. Pallet 6 for the convenience of collecting fragments can be made perforated. When the ammunition is detonated, the shock wave propagating in the lower space is reflected from the walls and the bottom of the tank, because their material has an acoustic rigidity higher than the acoustic rigidity of the liquid medium, returns to the blasting point and, not meeting the resistance of the shock wave that has gone up to the free surface of the liquid medium, has an asymmetric effect on the gas bubble from detonation products, causing it to break. The divider 5, made, for example, in the form of a lattice or other perforated structure placed at a given depth, completes the fragmentation of fragments of a gas bubble. Thus, the cooling of detonation products and the transition of solid detonation products to a liquid medium is intensified, which leads to an increase in the yield of the final product, a diamond-containing charge, after processing of which cluster diamonds are separated by known methods. In addition, the release into the atmosphere of harmful substances generated by the explosion is prevented.

 To enhance the destructive effect on the gas bubble, you can use the tank with a concave bottom shape, and to prevent the destruction of the walls of the tank during the blasting process, you can supply gas to the zone adjacent to the inner side surface of the tank. The fragments generated during the explosion of the ammunition (its part, or parts, or group of ammunition) fall on the pallet, with the help of which they are then removed. Since the ammunition contains elements made of different metals, then in the future their fragments can be divided and used as scrap metal.

 Disposal of the claimed method can be subjected to either regular ammunition, or fragments thereof, obtained previously by the method of explosive or any other cutting. This excludes the stage of preparation of unpacked explosive charges.

 Cluster diamonds obtained by the proposed method have an extremely small size of not more than 60 angstroms and form a suspension in a liquid medium uniformly distributed over the volume of the tank. After settling at a certain depth of the tank, the enriched suspension is sucked off through the pipes brought in there, it is filtered, after which the liquid purified from the charge is returned to the tank, and the separated precipitate containing up to 95% of the liquid medium enters the unit for partial drying. Partially dried sediment contains up to 45% ultrafine carbon mixture, which, depending on the composition of the equipment, utilized munition contains up to 50% of cluster diamonds.

 The proposed method allows the disposal of ammunition and the production of diamond-containing charge in the framework of one technological process, which is obviously more economical.

 An important advantage is the possibility of using a ballistic missile withdrawn from combat duty and subject to destruction as part of the implementation of international agreements as a silo launcher.

 The return after filtration of the liquid medium into the tank allows the process to be carried out in a closed cycle, i.e. environmentally friendly.

 The method provides for the possibility of subsequent disposal of metal fragments of ammunition obtained by detonation.

Claims (7)

 1. A method of disposing of ammunition followed by extraction of diamonds, characterized in that at least one of the ammunition or one part thereof is blown up in a liquid medium having a free surface and located in a tank whose wall material has an acoustic rigidity higher than the acoustic rigidity of the liquid medium, this destroys the gas bubble from the detonation products by an asymmetric shock-wave action on it, after which diamonds are extracted and fragments of ammunition are extracted.  2. The method according to claim 1, characterized in that the bottom of the tank has a concave shape.  3. The method according to claim 1 or 2, characterized in that during the blasting process, gas is supplied to the zone adjacent to the inner side surface of the tank.  4. The method according to any one of claims 1 to 3, characterized in that between the free surface of the liquid medium and the ammunition a gas bubble divider is installed.  5. The method according to any one of claims 1 to 4, characterized in that the divider is perforated.  6. The method according to any one of paragraphs.1 to 5, characterized in that between the bottom of the tank and the detonated product establish a pallet.  7. The method according to claim 6, characterized in that the pallet is perforated.