RU2030707C1 - Method of destruction of bodies - Google Patents

Abstract

FIELD: utilization of military equipment. SUBSTANCE: small-sized ammunitions with case thickness equal to 0.4-1.0 thickness of body to be destructed are placed in specified location of body at distance of 1-5 their diameters from specified point. Ammunitions are blasted. If small-sized hollow-charge ammunitions are used steel block equal in thickness to 1-4 diameters of hollow-charge ammunition is positioned between hollow-charges and body to be destructed. EFFECT: improved efficiency of blasting of metal articles filled with explosive with expired service life. 3 cl, 3 dwg

Description

 The invention relates to the disposal of samples of military equipment and weapons (IWT) in the interests of the national economy and can be used to extract metal from products filled with explosive material (VM) with an expired service life.

 A known method of destruction of buildings, including the placement of explosive devices in a given place and their detonation.

 However, the known method has not a sufficiently high adaptability.

 The technical result, the solution of which the invention is directed, is to increase the manufacturability of the process of demilitarization of products containing VMs with an expired service life.

 The technical result is achieved by the fact that in the method of destruction of the shells, including the placement of explosive devices in a given place and their detonation, small-caliber ammunition equipped with explosive material is used as explosive means and set them at a distance of 1-5 of their diameter from a given place of the destroyed body.

 In this case, small-caliber ammunition is used with a shell thickness equal to 0.4-1 of the thickness of the destroyed shell in a given place. Also, small-caliber cumulative ammunition installed with the direction of the cumulative funnel in the direction of the destructible body is used as explosive means, and a steel protective block with a thickness equal to 1-4 of the diameter of the explosive means is placed between the destructible body and the explosive means.

 Figure 1.2 shows the layout of small-caliber products; figure 3 is an exemplary nature of fragmentation.

 For large-sized article 1 in the form of a cylinder containing a metal case 2 and BM 3, small-caliber ammunition 4 and 5 in a thick steel case are chosen so that Tm is 0.4-1 Tk in selected places of a large product, while small-caliber ammunition installed in different places may vary in diameter and wall thickness of the housing. Small-caliber ammunition can be located either along the axis (item 4), or across the axis (item 5), or arbitrarily relative to the large-sized product, depending on the required fragment sizes. Depending on the properties of the material of the case and the VM, additional destruction of the case is possible when it breaks (for example, the upper fragment can be divided into two parts).

 Additional technological capabilities are represented by small-caliber cumulative ammunition 6, which, when detonated, forms a unidirectional stream of fragments having a higher velocity than for products in steel cases. The process of pulsed loading of a large product changes significantly, i.e., the places where fragments act on the case are localized, but the volume and degree of pulsed loading of the VM increases. The smaller softening of the shell by fragments is compensated by a more intense rupture due to the release of energy from a part of the BM of a large product in the form of rapid burning. To exclude the explosion of a large product, the flow rate of fragments from the cumulative product is limited by a protective shield 7, the thickness of which is established experimentally depending on the characteristics of the VM of the large product and the parameters of the flow of fragments of a small product. If the thickness of the steel protective block is less than one diameter, a large product may explode, if the thickness is more than four diameters, the speed and energy of the fragments is not enough to destroy large products.

 The ability of small-caliber cumulative ammunition to act on the extended volumes of large products to affect the extended volumes of large products expands the possibility of impulse loading, for example, elongated products, in thickened cases, etc., and it is also possible to load fragmentation from conventional and cumulative small-caliber ammunition together.

Claims (3)

 1. METHOD OF DESTRUCTION OF CASES, including the placement of explosive devices in a given place and their detonation, characterized in that small-caliber ammunition equipped with explosive material is used as explosive means and set them at a distance of 1 to 5 of their diameters from a given place of the destroyed body.  2. The method according to claim 1, characterized in that use small-caliber ammunition with a shell thickness of 0.4 - 1.0 thickness of the destroyed shell in a given place.  3. The method according to p. 1, characterized in that small-caliber cumulative ammunition installed with the direction of the cumulative funnel towards the destructible body is used as explosive means, and a steel protective block with a thickness of 1 to 4 diameters of the explosive means is placed between the destroyed body and the explosive means.

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