RU223787U1 - Combined action warhead - Google Patents

Abstract

The utility model relates to the field of weapons, specifically to a combined action warhead. The combined-action warhead contains a metal body that acts as a fragmentation shell, with a main charge of a cylindrical high explosive placed in it with a central axial cavity in which the solenoid winding and the radiation circuit winding are located on top. The warhead contains an additional cumulative precharge with a lining made of a material of high magnetic permeability, facing the main cylindrical charge. The warhead includes a contactor, a vibrator, a power source made in the form of a capacitor battery, and contactors. In the layer of high explosive adjacent to the body, incendiary elements with self-propagating high-temperature synthesis compositions are placed. The technical result is to ensure a synergistic destructive effect on objects and targets with elements of electronic equipment and flammable materials. 2 ill.

Description

The utility model relates to the field of weapons, specifically to means of destruction with physically heterogeneous damaging factors of destructive-incendiary-electromagnetic action and is intended to destroy weapons and military equipment with elements of radio-electronic equipment (RES) and flammable materials (airplanes and helicopters in parking lots, missile defense systems, operational-tactical missile systems, etc.).

Ammunition is known (air bombs, warheads of guided and unguided missiles, artillery shells, etc.) that have a combined destructive effect, for example, high-explosive fragmentation, cumulative fragmentation, cumulative high-explosive fragmentation, armor-piercing high-explosive, etc., containing a body with irregular or specified fragmentation, an explosive charge that ensures the destruction of a target due to the action of a shock wave, fragments, a metal cumulative jet or kinetic impact energy, as well as destructive incendiary: high-explosive incendiary, armor-piercing incendiary, fragmentation incendiary, high-explosive fragmentation -incendiary, etc. [1, 2, 3].

Currently, the improvement of weapons and military equipment, in particular, missile and aviation equipment, is moving in the direction of increasing the electronic equipment of their electronic systems and on-board electronic equipment (REA) using a modern element base with a high level of integration (up to 10 ³ elements per chip) . Failure of the electronic electronic equipment and on-board electronic equipment of an object is considered as its functional damage (FD), as a result of which the target loses the ability to function normally.

Moreover, to damage any electronics, tiny energy densities of microwave radiation are sufficient for the induced electric current pulse to penetrate the semiconductor element. This energy is tens of thousands of times less than that required to destroy a target with a shock wave or fragments. For example, to disable an anti-ship missile, the required energy density of fragments weighing at least 1 g reaches 100,000 J/m ² , a shock wave - 50,000 J/m ² , and a microwave pulse with a duration of 1 μs - from 1 to 10 J/m m ² . Functional destruction (FD) involves the creation of ammunition with sources of electromagnetic radiation, which ensure the disabling of electronic devices and on-board electronic equipment of targets at distances from hundreds of meters to tens of kilometers, which significantly exceeds the radius of destruction from conventional destructive-incendiary ammunition [4, 5] .

Electromagnetic ammunition is known [1], which provide only functional damage to weapons and military equipment with elements of electronic electronic devices, but does not have damaging destructive factors.

There is a known scheme for constructing an explosive magnetic frequency generator (EMFG) for close combat weapons [1], which includes a warhead body, cores, explosive charges, a vibrator, a solenoid winding, a battery, and a radiation circuit winding. Cores made of high magnetic permeability material are suitable for the solenoid on both sides. Explosive charges are placed on the outside of the core. The solenoid is powered by primary current from the active battery. A radiation circuit winding is superimposed on the solenoid, one end of which is grounded and the other is connected to a half-wave vibrator. Structurally, the VMGCH is located in the body of the warhead of a weapon (SP), intended, for example, for a grenade launcher. When the joint venture, and, consequently, the explosive, is detonated, the cores move at high speed inside the solenoid. In this case, the magnetic flux changes and an electromotive force of induction arises, which is transmitted through the turns of the winding of the radiation circuit to the vibrator and emitted into space in the form of powerful ultrashort EMR pulses.

As a disadvantage, it should be noted that this weapon has a low explosive utilization rate, i.e. Due to the presence of two massive cores acting as a permanent magnet, the filling factor η, which represents the ratio of the mass of the explosive to the mass of the weapon, is reduced:

where m _explosive is the mass of the explosive, kg; m _k is the mass of the body of the weapon, and therefore the high-explosive fragmentation effect.

These disadvantages are eliminated by the prototype.

A warhead based on an explosive-magnetic cumulative generator was chosen as a prototype [6]. The principle of operation is to generate powerful electromagnetic radiation due to a rapid change in the magnetic flux, and, consequently, the induction current, due to the fact that the formed metal cumulative jet acts as a permanent magnet. This is achieved by the fact that the explosive charge consists of a main cylindrical explosive charge with a central axial cavity in which the solenoid winding is located, and an additional cumulative precharge with a lining made of a material of high magnetic permeability, facing the main cylindrical charge.

To destroy weapons and military equipment with elements of electronic equipment and flammable materials, which include, first of all, objects of primary importance: missile and aviation systems (airplanes and helicopters in parking lots, missile defense systems, operational-tactical missile systems, etc.) etc.), it is necessary to use ammunition of combined (synergetic) destructive-incendiary-electromagnetic action. The specified prototype does not provide a synergistic effect on the specified typical targets.

The purpose of a utility model is to eliminate the shortcomings of the prototype.

The technical solution of the utility model is that, unlike the prototype, in the proposed warhead, in a layer of high explosive adjacent to the body, compact incendiary elements with self-propagating high-temperature synthesis compositions (SHS compositions) of the “Ti+C” type (titanium + carbon), “Ni+Al” (nickel + aluminum), “3Pb+5Zr” (lead + zirconium).

The essence of the proposed utility model is illustrated in Fig. 12.

In fig. 1 shows a warhead of the combined action of physically heterogeneous damaging factors; FIG. 2 - compact incendiary elements based on SHS compositions.

The warhead of the combined action of physically heterogeneous damaging factors (Fig. 1) consists of a housing 3, which acts as a fragmentation shell, with the main charge of a cylindrical high explosive placed in it with a central axial cavity 4, in which the solenoid winding 5 and the radiation circuit winding are located 6 on top, additional cumulative precharge 8 with lining 7 made of high magnetic permeability material facing the main cylindrical charge, contactor 1, vibrator 2, power source (capacitor battery) 11, contactors 9,10. In the layer of high explosive adjacent to the body, compact incendiary elements 12 with self-propagating high-temperature synthesis compositions are placed.

In fig. Figure 2 shows a general view of compact incendiary elements based on SHS compositions: a) before detonation; b) after the explosion. The table shows the mass and geometric characteristics of compact incendiary elements [7]

The detonation of the cumulative precharge 8 is synchronized so that, under the influence of detonation products, a metal cumulative jet is formed at the moment when the initial magnetic field reaches a maximum intensity H ₀ when the capacitor bank 11 is discharged to the solenoid 5. In this case, the metal cumulative jet plays the role of a permanent magnet (core), which moves at high speed (up to 20,000 m/s) inside the solenoid 5. At the same time, the magnetic flux also changes and an electromotive force of induction arises, which is transmitted through the turns of the winding of the radiation circuit 6 to the vibrator 2 and radiated into space in the form of a powerful ultra-short EMR pulse. In addition, the metal cumulative jet ensures the formation of a cylindrical detonation wave, and ultimately ensures an increase in the power of the explosion and the effectiveness of high-explosive fragmentation. As a result of shock wave loading, “cocking” (an exothermic interaction reaction) and scattering of the incendiary elements occurs.

Due to the primary damage field (high-explosive fragmentation), the target is generally destroyed and fuel containers (reservoirs, fuel tanks, etc.) are “opened” (pierced by fragments), resulting in fuel spreading over the underlying surface. During an explosion, incendiary elements are distributed in the area of action of the high-explosive fragmentation field and, upon contact with a flammable liquid, ignite it, which leads to the emergence of individual fires and, ultimately, to the destruction of the entire target as a whole.

The technical result is the combination in a single weapon of physically heterogeneous damaging factors, providing a synergistic damaging effect on objects and targets with elements of electronic equipment and flammable materials (airplanes and helicopters in parking lots, missile defense systems, operational-tactical missile systems, etc.) .

The use of a weapon of synergistic action, taking into account the physical heterogeneity of the damaging factors (high-explosive fragmentation, incendiary, electromagnetic) will lead to a significant expansion of the combat capabilities of weapons with the proposed warhead.

This useful model can be implemented in weapons built on the basis of artillery shells of 100 and 130 mm caliber, as well as as warheads of guided and unguided missiles in service with the Russian Defense Ministry.

Literature

1. Ammunition: textbook in 2 volumes / edited by V.V. Selivanova. -Moscow: Publishing house of MSTU im. N.E. Bauman, 2016.

2. Kozlov V.V., Zontova T.V., Chuprin A.V. Incendiary fragmentation projectile. Utility model patent RU 203385 U1, 04/02/2021 Application No. 2020125340 dated 07/23/2020.

3. Kozlov V.V., Krivtsov V.A. and other USSR copyright certificate for invention No. 325103 dated January 18, 1991.

4. Kravchenko V.I. Electromagnetic weapons / V.I. Kravchenko. - Kharkov: NTU "KhPI", 2008. - 185 p.

5. Kravchenko V.I. Weapons based on unconventional physical principles: Electromagnetic weapons. - X.: “NTMT”, 2009. - 266 p.

6. Kozlov V.V., Zontova T.V., Golubtsov D.L., Sevryukov I.T., Ilyin V.V. The warhead is based on an explosive-magnetic cumulative generator. Utility model patent 179760, RU F42B 12/20; F42B 1/02; H01H 39/00. Application 10/17/2017.

7. Kozlov V.V., Rybakov A.P. Ballistic and thermal effects on objects of technical systems with flammable materials: monograph / V.V. Kozlov, A.P. Rybakov.- Perm: Publishing house “OT and DO”, 2010 - p.

Claims (1)

A combined-action warhead containing a metal body that acts as a fragmentation shell, with a main charge of a cylindrical high explosive placed in it with a central axial cavity in which the solenoid winding and the radiation circuit winding are located on top, an additional cumulative precharge with a lining made of material high magnetic permeability facing the main cylindrical charge, a contactor, a vibrator, a power source made in the form of a capacitor battery, contactors, characterized in that incendiary elements with self-propagating high-temperature synthesis compositions are placed in a layer of high explosive adjacent to the body.