RU2743918C1 - Cumulative charge (options) - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: proposed invention relates to the field of explosion processing, weapons, and oil and gas production, namely, shaped charges. The variants of the shaped charge are presented. Shaped charges contain a body, a shaped metal lining, an initiator and a high explosive filling the space between the body and the lining. The metal cumulative lining is a frame - a conical funnel formed from intertwining square wire, and the weaving feature is such that some wires coincide with the forming funnels, while others intertwine them. The second embodiment of the shaped charge differs in that the blasting explosive is pressed unevenly - denser sections of the explosive are pressed along a helical line.

EFFECT: improved penetrating ability of the shaped charge by increased density and length of the shaped charge.

9 cl, 1 dwg

Description

The present invention relates to the field of blasting, weapons, and the oil and gas industry.

Known shaped charge (patent RU 59798 U1, IPC F42B 1/02), consisting of a housing in which an explosive charge with a recess is placed, having a fairing in the front part, a fuse in the tail section, and a conical shaped charge lining made in the form of central conjugate V-shaped elements.

The presented solution increases the mass-energy characteristics of the cumulative jet, which, in turn, allows the metal of the jet to remain in a quasi-liquid state for a longer time and, in theory, increases the penetrating power of the charge, but despite this, firstly, the manufacture of such a charge is technologically difficult and not always expedient. , secondly, in the manufacture of facings of such complex shapes, the microstructure of the metal suffers - they "stretch", change the orientation of crystallites - which, as is known, leads to a decrease in the efficiency of jet formation and an earlier destruction of the cumulative jet during its extension - hence, to a decrease in the penetration depth ...

Known shaped charge (patent RU 191145 U1, IPC F42B 1/02, F42B 1/028, F42B 1/036, F42B 3/08), which is a prototype of option 1 of this invention, consisting of a body, metal shaped lining, initiating device and space between the body and the lining filled with high explosive.

Known shaped charge (patent RU 191145 U1, IPC F42B 1/02, F42B 1/028, F42B 1/036, F42B 3/08), which is a prototype of option 2 of this invention, consisting of a body, a metal shaped lining, an initiating device and a space between the body and the lining, filled with a blasting explosive, pressed unevenly: denser sections of the explosive are pressed in along a helical line.

However, the cumulative conical linings used in the prototype according to option 1 and in the prototype according to option 2, which are most often made by means of rotary drawing technology, differ in the heterogeneity of the metal microstructure - they consist of crystallites of different sizes, shapes and orientations - which negatively affects the efficiency of plastic deformation of the material cumulative lining both in the process of jet formation and when the cumulative jet is stretched. That is, such a design of the cumulative lining does not always fully realize the potential of the detonation energy of the explosive, because, as you know, shaped charges with a homogeneous fine-grained microstructure of the metal of the cumulative lining function most effectively.

The objective of the present invention is to increase the penetrating power of the shaped charge by increasing the density and length of the shaped charge.

The task is achieved by the fact that the device (option 1) contains a housing, a metal cumulative lining, an initiating device and a blasting explosive filling the space between the housing and the lining, while the metal cumulative lining is a frame - a conical funnel formed from an interwoven wire of square cross section, and the peculiarity of weaving is such that some wires coincide with the forming funnels, while others intertwine them.

Also, the problem is solved by the fact that the device (option 2) contains a housing, a metal cumulative lining, an initiating device and a blasting explosive filling the space between the housing and the lining, unevenly pressed - denser sections of the explosive are pressed along a helical line, and the metal cumulative lining is itself is a frame - a conical funnel, formed from intertwining square-section wire, and the peculiarity of weaving is such that some wires coincide with the forming funnels, while others intertwine them.

The geometry of the wire - the square shape of the section - is selected for two factors. Firstly, despite the fact that the modern level of technology allows the manufacture of meshes with an almost smooth (with minimal gaps or without gaps) surface (for example, meshes made in accordance with GOST 3187-76 "Wire woven filter nets"), this provides the greatest the density of weaving and the tightness of the lining, which is necessary for the functioning of the shaped charge. Secondly, when using a wire with a circular cross-section during compression of the cumulative lining with detonation products, the pressure along the lining profile is distributed unevenly, which entails a decrease in the efficiency of jet formation.

The manufacture of bimetallic cumulative linings - where the wires coinciding with the forming of the linings and the wires intertwining them are made of metals with different chemical compositions, physical and mechanical properties - is expedient for two reasons. First, this solution allows you to flexibly control the physical and mechanical characteristics of the jet material. Secondly, this solution makes it possible to reduce the cost of materials required for the manufacture of cladding: since the thickness of the jet-forming layer during cumulation is about 300 microns, with dense, hermetically weaving a metal sheet, the use of high-density ductile metal wires as a material is really only necessary for wires intertwining coinciding with the cladding generatrix.

Parameters and characteristics such as thickness, tightness of weaving and laboriousness of manufacturing a metal cumulative lining can be varied in two ways. Firstly, due to the choice of the type of weaving: for example, in GOST 3187-76 "Wire woven filter nets" there are plain, twill and double twill types of weaving - from the least to the most dense. Secondly, due to the ratio of the cross-sectional side of the wires, coinciding with the cladding generatrices, to the cross-sectional side of the wires intertwining them: the choice of the parameter value in the range of 1 ... 2 to 1 ensures obtaining the most technologically advanced design and is optimal with relatively low requirements for the tightness of the metal cumulative lining; the choice of the parameter value in the range 2 ... 5 to 1 is assigned as standard; the choice of the parameter value in the range of 5 or more to 1 provides a structure with an extremely high tightness of the weaving of a metal cumulative lining and is optimal with relatively low requirements for the manufacturability of the structure, and the thickness of the wires is chosen for reasons of sufficient tightness of the weaving.

The general drawing (according to option 1 and option 2) shows the proposed device. The shaped charge contains a housing (1), a metal shaped lining (2) formed from a wire of square cross-section, the space between the lining and the housing is filled with a blasting explosive (3), and an initiation device (4) is also located at the other end of the housing (1).

The principle of operation of the device of option 1 is as follows. When the initiation device (4) is triggered, a spherical detonation wave is excited in the blasting explosive (3) located in the housing (1). With the approach of the detonation front and the expanding detonation products following it to the metal cumulative lining (2), the metal of the cumulative lining is compressed, and the wires coinciding in direction with the generators of the cumulative lining (2) form a jet of metal "threads" of a homogeneous microstructure, since the wire initially has a homogeneous microstructure of the material in accordance with the current state standards, and the wires intertwining them in the transverse direction, when compressing the metal lining, additionally compress and intertwine the "threads" of the generated cumulative jet, thereby increasing its stability, linear velocity and stabilizing the geometric parameters of the jet ... As a result, a dense cumulative jet is formed, the metal of which has high ductility due to a homogeneous fine-grained microstructure, which entails an increase in the cumulative jet extension potential and, consequently, the penetration capacity of the shaped charge.

The principle of operation of the device of option 2 is as follows. When the initiation device (4) is triggered, a spherical detonation wave is excited in the blasting explosive (3) located in the housing (1). Passing through the sections of a denser pressing of explosives located along a helical line, the detonation front is deformed, because in denser sections of explosive pressing, the detonation velocity is higher, and the detonation products acquire a rotational component of motion, as a result of which, when the detonation front approaches the metal cumulative lining (2), when the detonation front approaches the metal cumulative lining (2), the metal of the cumulative lining is also compressed along a helical line, moreover, the wires coinciding with the generatrix of the cumulative lining (2) form a jet of metal "threads" of a homogeneous microstructure, since the wire initially possesses the homogeneity of the material microstructure in accordance with the current state standards, and the wires intertwining them in the transverse direction during compression of the metal lining additionally squeeze and intertwine the "threads" of the formed cumulative jet, thereby increasing its stability, linear velocity and stabilizing the geometric parameters of the jet. As a result, a dense, rotationally stabilized and hardened jet is formed, the metal of which has high ductility due to a homogeneous fine-grained microstructure, which entails an increase in the cumulative jet extension potential and, consequently, the shaped charge penetrating ability.

To increase the flexibility of the design of the proposed device (option 1) - to control the parameters of functioning, labor intensity of manufacture, the cost of materials used in the manufacture - it is possible to perform a shaped charge as a device containing a body, a metal shaped lining, an initiating device and a high explosive filling the space between the body and the lining , in this case, the metal cumulative lining is a frame - a conical funnel formed from intertwining square wire, while the cumulative lining can be performed in various versions.

One of the options for implementing a shaped charge (option 1) is a design, the shaped lining of which is made as bimetallic.

One of the options for the implementation of the shaped charge (option 1) is a structure, the shaped lining of which is made according to the plain weaving type. Another embodiment of the shaped charge (option 1) is a structure, the shaped lining of which is made according to the twill type of weaving. Also, one of the options for the implementation of the shaped charge (option 1) is a design, the shaped lining of which is made according to the double twill type of weaving.

One of the options for implementing the shaped charge (option 1) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 1 ... 2 to 1. Also one of the options for implementing the shaped charge (option 1) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 2 ... 5 to 1. Another variants of the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the shaped lining of which is made as bimetallic, made according to the plain weaving type. Another embodiment of the shaped charge (option 1) is a design, the shaped lining of which is made as bimetallic, made according to the twill type of weaving. Also, one of the options for implementing the shaped charge (option 1) is a structure, the shaped lining of which is made as bimetallic, made according to the double twill type of weaving. Another embodiment of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the lining, to the side of the cross-section of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the lining, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Another embodiment of the shaped charge (option 1) is a design, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the section of the wires, coinciding with the generatrix of the lining, to the side of the section the number of wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 1) is a structure, the cumulative lining of which is made according to the plain weaving so that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires coinciding with the generatrices of the lining, to the cross-sectional side of the intertwining their wires as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the image facing, to the side of the section of the wires intertwining them as 5 or more to 1.

One of the options for implementing the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires coinciding with the generatrices of the lining, to the cross-sectional side of the intertwining their wires as 2 ... 5 to 1. Another option for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices facing, to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side the cross-sections of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrix of the cladding, to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrix of the lining, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain weaving type so that the thickness of the wires is selected within the corresponding of the cross-sectional side of the wires coinciding with the cladding generatrices to the cross-sectional side of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the lining, to the cross-sectional side of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for implementing the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrix of the lining, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Another option for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio the sides of the cross-section of the wires coinciding with the generatrices of the cladding to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative lining of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires, coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 1) is a design, the cumulative lining of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the sides of the section of the wires coinciding with the generatrices cladding, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 1) is a structure, the cumulative facing of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is chosen are within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the cladding to the side of the cross-section of the wires intertwining them as 5 or more to 1.

Also, to increase the flexibility of the design of the proposed device (option 2) - to control the parameters of functioning, the labor intensity of manufacturing, the cost price used in the manufacture of materials - it is possible to perform a shaped charge as a device containing a body, a metal shaped lining, an initiating device and filling the space between the body and the lining with a blasting non-uniformly pressed explosive - denser sections of the explosive are pressed in along a helical line - while the metal cumulative lining is a frame - a conical funnel formed from intertwining square wire - while the cumulative lining can be made in various versions.

One of the options for implementing the shaped charge (option 2) is a design, the shaped lining of which is made as bimetallic.

One of the options for implementing a shaped charge (option 2) is a structure, the shaped lining of which is made according to the plain weaving type. Another embodiment of the shaped charge (option 2) is a design, the shaped lining of which is made according to the twill type of weaving. Also, one of the options for implementing the shaped charge (option 2) is a design, the shaped lining of which is made according to a double twill weave type.

One of the options for implementing the shaped charge (option 2) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 1 ... 2 to 1. Also one of the options for implementing the shaped charge (option 2) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 2 ... 5 to 1. Another variants of the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made in such a way that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the shaped lining of which is made as bimetallic, made according to the plain weaving type. Another embodiment of the shaped charge (option 2) is a structure, the shaped lining of which is made as bimetallic, made according to the twill type of weaving. Also, one of the options for implementing the shaped charge (option 2) is a structure, the shaped lining of which is made as bimetallic, made according to the double twill type of weaving. Another embodiment of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the lining, to the side of the cross-section of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for implementing the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 2 ... 5 to 1. Another embodiment of the shaped charge (option 2) is a design, the cumulative lining of which is made as bimetallic, made so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining to the side of the section the number of wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the plain weaving so that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires coinciding with the generatrices of the lining to the cross-sectional side of the intertwining their wires as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the image facing, to the side of the section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires coinciding with the generatrices of the lining, to the cross-sectional side of the intertwining their wires as 2 ... 5 to 1. Another option for the implementation of the shaped charge (option 2) is a design, the cumulative lining of which is made as made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices facing, to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 2) is a structure, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires, coinciding with the generatrix of the lining, to the side the cross-sections of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a design, the cumulative lining of which is made as made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrix of the cladding, to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain type of weaving so that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the lining, to the side of the cross-section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrix of the lining, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the plain weaving so that the thickness of the wires is selected within the corresponding of the cross-sectional side of the wires coinciding with the cladding generatrices to the cross-sectional side of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires coinciding with the generatrix of the lining, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Another option for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the twill type of weaving so that the thickness of the wires is selected within the ratio the sides of the cross-section of the wires coinciding with the generatrices of the cladding to the side of the cross-section of the wires intertwining them as 5 or more to 1.

One of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative lining of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the side of the section of the wires, coinciding with the generatrices of the lining, to the side of the section of the wires intertwining them as 1 ... 2 to 1. Another embodiment of the shaped charge (option 2) is a design, the cumulative lining of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is selected within the ratio of the sides of the section of the wires coinciding with the generatrices cladding, to the side of the cross-section of the wires intertwining them as 2 ... 5 to 1. Also, one of the options for the implementation of the shaped charge (option 2) is a structure, the cumulative facing of which is made as bimetallic, made according to the double twill type of weaving so that the thickness of the wires is chosen are within the ratio of the side of the cross-section of the wires coinciding with the generatrices of the cladding to the side of the cross-section of the wires intertwining them as 5 or more to 1.

The technical result of the proposed invention is to increase the penetration capacity of the shaped charge by increasing the density and length of the shaped charge due to the inclusion in the design of the shaped charge of a metal shaped lining formed from ready-made metal filaments with a homogeneous microstructure. This leads to the fact that as a result of the detonation of the blasting explosive, a stable cumulative jet is formed, consisting of metal flows with a homogeneous fine-grained microstructure, due to which the time interval from the beginning of jet formation to the moment of destruction of the integrity of the cumulative jet increases.

Also, the technical result of the proposed invention is to increase the penetration capacity of the shaped charge by increasing the density and length of the shaped charge due to the inclusion in the design of the shaped charge of a metallic shaped lining formed from ready-made metal filaments with a homogeneous microstructure. This leads to the fact that as a result of the detonation of the blasting explosive, a stable cumulative jet is formed, consisting of twisting flows of metal with a uniform fine-grained microstructure, due to which the time interval from the beginning of jet formation to the moment of destruction of the integrity of the cumulative jet increases.

Claims (9)

1. Shaped charge, consisting of a body, a metal shaped lining, an initiating device and filling the space between the body and the lining of a blasting explosive, characterized in that the metal shaped lining is a frame - a conical funnel formed of interwoven square wire, and a weaving feature is such that some wires coincide with the generatrices of the funnels, while others intertwine them. 2. A shaped charge, consisting of a body, a metal shaped lining, an initiating device and filling the space between the body and the lining of a blasting explosive, pressed unevenly - denser sections of the explosive are pressed along a helical line, characterized in that the metal shaped lining is a frame - a conical funnel, formed from intertwining square wire, and the weaving feature is such that some wires coincide with the forming funnels, while others intertwine them. 3. Shaped charge according to PP. 1, 2, characterized in that some wires coincide with the generatrices of the funnels and are made of one type of metal, while others, made of a second type of metal, intertwine them. 4. Shaped charge according to any one of paragraphs. 1-3, characterized in that the wires are intertwined in plain weaving. 5. Shaped charge according to any one of paragraphs. 1-3, characterized in that the wires are intertwined according to the twill type of weaving. 6. Shaped charge according to any one of paragraphs. 1-3, characterized in that the wires are intertwined in a double twill type of weaving. 7. Shaped charge according to any one of paragraphs. 1-6, characterized in that the thickness of the wires is selected within the ratio of the side of the cross-section of the wires coinciding with the generatrix of the cladding to the side of the cross-section of the wires intertwining them as 1 ... 2 to 1. 8. Shaped charge according to any one of paragraphs. 1-6, characterized in that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires, coinciding with the generatrices of the cladding, to the cross-sectional side of the wires intertwining them as 2-5 to 1. 9. Shaped charge according to any one of paragraphs. 1-6, characterized in that the thickness of the wires is selected within the ratio of the cross-sectional side of the wires, coinciding with the generatrices of the cladding, to the cross-sectional side of the wires intertwining them as 5 or more to 1.

Images