RU2215978C2 - High-explosive hollow-charge warhead - Google Patents

Abstract

FIELD: defensive equipment, structures of multipurpose warheads fitted with fuses of contact type. SUBSTANCE: warhead includes profiled hollow-charge lining and bursting charge. Hollow-charge lining comes in the form of spherical segment with thickening located in center. Bursting charge combines front charge made of blasting explosive bordering on lining over its entire spherical surface and rear charge made up of high-explosive metallized explosive. Central charge of blasting explosive contacting thickening on lining equal to it in diameter with butt is placed concentric inside rear charge. EFFECT: considerably raised efficiency of warhead. 1 dwg

Description

 The invention relates to the field of defense technology and can be used in structures equipped with fuses of contact type warheads (warheads) for multipurpose purposes, namely in warheads of high explosive cumulative effects.

 Known warheads of cumulative action, for example, according to the patents of Germany 2553191, MKI F 42 V 1/00 and 2901500, MKI F 42 B 1/02, containing a bursting charge and cumulative lining, designed to hit targets by cumulative effect.

 The designs of the cumulative warheads are characterized by significant directional action, as a result of which the lesion area has great depth and small radial dimensions, and the target or its vulnerable units that do not fall into the zone of movement of the elements of the cumulative jet (CS) do not receive the destruction required for its destruction. It is not possible to increase the high-explosive effect of cumulative warheads, which ensures an increase in the radius of the affected area by using high-explosive explosive substances with a high TNT equivalent to produce a explosive charge due to the introduction of a large amount of combustible components, for example, aluminum powder. The reason leading to a significant decrease in the characteristics of CSs is the low propellant ability of high explosive explosive compositions (BC), which have a high percentage of solid metallized combustible fraction (up to 30-50%) and a high heterogeneity of the detonation front propagating through such compositions.

 In addition, to ensure the formation of CS in the head of the warhead compartment before the cumulative lining, it is necessary to create a free zone of at least one charge gauge. This limits the size of the explosive charge, the mass of which determines the parameters of a high-explosive action, characterized by the energy transmitted by the explosion to the environment or to the target structural elements by the action of an air (underwater or underground) shock wave.

 Thus, the use of well-known technical solutions does not allow to provide a sufficiently high level of both cumulative and high-explosive action for known designs of cumulative warheads.

 Known high-explosive warheads, for example, according to the FRG patent 1411912, MKI F 42 B 13/12 and US patent 3742859, MKI F 42 B 1/00, explosive charges of which consist of a central and concentrically located external charge made of high-explosive aircraft with different detonation speeds.

 In the technical solution for the Federal Republic of Germany patent 1411912, the central charge is made of aircraft with an increased detonation velocity compared to the aircraft of an external charge. The external charge is made of aircraft with a low detonation velocity, but an increased high-explosive action. Increases in the high-explosive action in all known modern formulations of explosive compositions are achieved by introducing a large number of high-energy combustible additives into the composition of the Armed Forces, the energy of most of which is released after the detonation process is completed, when they are burned in oxygen in the air, with which detonation products flying off during the explosion are mixed. For warheads whose breaking charge is made according to the FRG patent 1411912, such a difference in detonation velocities when initiated from the rear (along the flight) end results in a decrease in the deviation from the normal to the surface of the external charge of the direction of expansion of the detonation products containing a large amount of combustible additives that did not react to the first (detonation) epic of a high-explosive aircraft explosion. For contact warheads, such a change in the direction of motion of the detonation products reduces the loss of combustible additives that did not react at the first stage, which fall on the target’s surface and lose the ability to interact with atmospheric oxygen. This helps to increase the explosion energy of a high explosive aircraft and, as a result, increases the high explosive effect of warheads.

 At the same time, the absence of high-explosive warheads of cumulative action in these designs reduces the level of effectiveness of destruction of a wide range of durable targets, for example, such as armored vehicles or long-term firing points equipped with armored covers.

 The closest in technical essence and the achieved result to the claimed solution is the design of the device according to US patent 4033265 from 05.06.77, MKI F 42 B 13/12, consisting of a burst charge located in the housing, made of a homogeneous explosive, and shaped cumulative lining . The cumulative lining is the front cover of the casing and has the form of a round plate, the peripheral part of which is made flat, and the central part is concave into the casing in the shape of a segment of a sphere whose thickness is greater than the thickness of the peripheral part. This technical solution is selected as a prototype.

 Warhead, made in accordance with the technical solution described in the prototype, during operation creates a directed high-speed flow - a cumulative jet formed by the central spherical part of the cladding, which moves toward the target, overcoming the front compartments of the munition and creating a cavity in them for the fragmentation flow formed by the peripheral part facing.

The specified prototype has the following disadvantages:
- the flat shape of the peripheral part of the profiled cumulative lining does not provide the formation of a compact fragmentation stream, capable of freely, without interacting with the walls of the cavity formed by the cumulative stream, to reach the target surface, which reduces the breakdown cumulative effect of warheads;
- the use of a bursting charge of a homogeneous, high-explosive or blasting explosive does not allow for a given warhead to simultaneously have a high explosive and cumulative effect.

 Indeed, as noted above, high explosive compositions, in addition to low throwing ability, are also characterized by increased heterogeneity of the characteristics of the detonation front, which prevents the creation of an efficiently functioning cumulative charge. At the same time, any brisant composition selected for reliable formation of an effective cumulative jet cannot compete with modern high-explosive, in particular metallized, explosive compositions in the ability to create a powerful air shock wave. As experience shows, the TNT equivalent of a bursting charge explosion of a cumulative warhead equipped with modern blasting explosives is about 1-1.3, while a similar characteristic of explosive charges from modern high-explosive explosives reaches 1.75-2.0.

 The problem to which the invention is directed is to increase the efficiency of a high-explosive-cumulative warhead by increasing its breakdown effect, achieved by improving the shape of the cumulative lining and, at least, preserving the high-explosive action due to the use of a combined explosive charge made from different aircraft, whose action is equivalent (or higher) to the action of a uniform high-explosive charge of a similar mass.

The required technical result is achieved in that, in contrast to the known device, consisting of a bursting charge located in the housing, made of a homogeneous explosive and shaped cumulative lining, which is the front cover of the housing and having the form of a round plate, the peripheral part of which is flat and the central part is concave inside the body in the form of a segment of a sphere whose thickness is greater than the thickness of the peripheral part in the claimed warhead:
- shaped cumulative lining is made in the form of a spherical segment, in the central part of which there is a thickening;
- the bursting charge is combined, consisting of a front charge of a blasting explosive adjacent to the cladding along its entire spherical surface, and a back charge of a high explosive, metallized aircraft, inside which a central charge of a blasting explosive is concentrically located, which is in contact with a thickening of equal diameter on the facing.

 Analogues with signs similar to the claimed technical solution were not found, therefore, we can assume that the claimed invention is new and has a sufficient inventive step.

 Each of the above essential features is necessary, and their combination is sufficient to achieve the novelty of the quality of the new super-effect, which is not inherent in the signs of their disunity.

 The essence of the proposed technical solution is illustrated by the drawing, which shows the construction of a high-explosive-cumulative warhead.

 The proposed warhead consists of a shaped shaped cumulative lining 1 with a thickening in the central part, a rear charge 2 made of a high-explosive metallized explosive, inside which a central charge 3 of a blasting explosive is located concentrically, which contacts the butt with a thickening on the lining, and a front explosive charge 4 of a blasting explosive adjacent to the outer side of the cladding, and the initiating device 5.

 The proposed warhead operates as follows. When a detonation command is issued, an initiating device 5 is triggered, causing the detonation of the central bursting charge 3. A high-speed detonation front propagating in charge 3 initiates a detonation wave propagating at charge 2 at a slower speed, as a result of which the direction of propagation of the detonation wave front deviates towards the normal to the lateral surface of charge 2 to a greater extent than in the case of creating a detonation wave in a homogeneous explosive charge of a similar size.

 When the detonation wave approaches the front end of the central charge, a detonation wave is formed in charge 4, which propagates at a higher speed than in charge 2. Due to the higher detonation velocity in charge 4, an additional turn of the direction of propagation of the detonation wave front in charge 2 occurs in the direction normal to its lateral surface.

 This allows you to increase the speed of expansion and reduce the angle of deviation from the normal to the surface of the charge of the stream of products of detonation of charge 2. This provides an increase in the number of combustible additives falling into the mixing region of the products of detonation and the surrounding warhead air, and leads to an increase in that part of the explosion energy that is released after completion of the detonation process during the combustion of combustible additives.

 For contact warheads, the effectiveness of the conditions for the expansion of the products of detonation of charge 2 with a smaller angle of deviation of the direction of motion from the normal to the surface of the charge is even more obvious, since this reduces the amount of combustible additives that hit the surface of the target or soil and lose their ability to react with atmospheric oxygen .

 Under the pressure of the detonation products of the front explosive charge 4, made of blasting explosive, a compact high-speed damaging element (low-gradient CS) is formed from the shaped cumulative lining 1. The execution of the entire lining in the form of a spherical segment allows the formation of a damaging element capable of breaking through barriers of armored steel up to 1 caliber thick at a distance of about 0.5 of its caliber.

 This characteristic feature of the proposed scheme makes it indispensable for the functioning of warheads through the front compartment of the ammunition or in contact with the target.

 The thickening made in the central part of the cladding reduces the speed gradient in the central part of the formed striking element. The high propelling ability of a central charge made of blasting explosive provides an additional increase in the speed of movement of the head of the striking element, increasing its breakdown ability.

 Since the detonation of charge 4 is carried out by a detonation wave propagating along the central charge 3, which has increased detonation characteristics compared to the rear high-explosive charge 2, the shape of the detonation wave and the cumulative effect of the proposed design of the warhead do not depend on the symmetry of the functioning of the rear charge, for example, as a result of its inhomogeneity component or density. In this case, an additional increase in the stability of the cumulative action of the claimed warhead is achieved.

 Quantitative assessments of the correct choice of constructing the scheme of the claimed warhead, in terms of choosing the geometry of the cumulative cladding, the mass ratio of the rear and combined explosive charges, were carried out using numerical calculations and experimentally confirmed on warhead mock-ups.

As a result, the design of a warhead of ~ 140 mm caliber with a copper shaped lining and a combined charge has been developed, which has the following main technical characteristics:
The mass of the combined explosive charge is ~ 3.6 kg
The ratio of the mass of the back charge of a high explosive metallized explosive and the combined charge as a whole is ~ 0.75
Penetration depth in normal with a frequency of 1.0 medium hard armor at focal lengths from 0 to 5.7 calibres - more than 1 caliber
TNT (TIT) equivalent of an explosion in an air shock wave at a peak of 0.5 bar by:
- overpressure - more than 2
- impulse - more than 2.2
The experimental determination of TNT equivalents of explosive charges made from the same high explosive charge from which the rear charge of the claimed warhead was made showed that the average value of TNT equivalent of a uniform explosive charge of a cylindrical shape weighing from 3 to 10 kg, detonated from the rear end of the charge, lies in the range of 1.7-1.8.

 Thus, it can be seen that the use of the proposed warhead design allows, along with providing high armor-piercing warheads for known high-explosive warheads, to achieve a TNT equivalent of no less than the high-explosive warhead with a uniform explosive charge.

Therefore, the results of an experimental determination of the health of the proposed technical solution show that:
- through the use of a profiled cladding in the form of a spherical segment with a thickening in the center, performing a burst charge combined with the central and front charges of the blasting explosive, an increase in depth and an increase in the reliability of the breakdown effect of warheads are ensured;
- through the use of a combined explosive charge, in which the charge mass from a high-explosive, metallized aircraft makes up about 75% of the total charge mass, the high-explosive action is not lower than the high-explosive action of a warhead, the breaking charge of which is made uniform from a high-explosive aircraft of the same formulation and mass.

Claims (1)

 A high-explosive cumulative warhead containing a profiled cumulative cladding and a bursting charge, characterized in that the cumulative cladding is made in the form of a spherical segment with a thickening in the center, and a bursting charge is made combined, consisting of a front charge of a blasting explosive adjacent to the cladding throughout a spherical surface, and a back charge of a high explosive metallized explosive, inside which a central charge of a blasting explosive is concentrically located, which is in contact with an end equal to it in diameter etru thickening on the lining.