DE2306859A1 - ARMORED TARGET ARRANGEMENT - Google Patents

Description

Arrangement for combating armored targets The invention relates to generally refer to arrangements for combating armored targets by means of metallic ones Project parts. Such arrangements are, for example, as hollow charges or as with Tubes to be fired projectiles formed.

Ilohli loads with inlays or linings are known above all in the form of metallic hollow cones, which are detonated in the hollow charge Explosives to be surrounded by fast-flying projectiles. Dependent on the cone angle, the wall thickness and the material of the cone as well as the type and the arrangement of the explosive and the sleeve are formed in the shape of a jet, cone or bowl Projectiles or intermediate forms thereof.

In the case of acute-angled deposits, the projectile consists of a fast flying, long, jet-shaped front part with a relatively low mass of insert material and from a thick, shorter part, the so-called part, which flies more slowly behind it The plunger that covers the greater part of the insert material. With a larger cone angle The insert, however, gives you thicker, shorter projectiles, which practically make up the total amount of the insert material included.

The acute-angled inserts lead to the largest on armored targets Penetration depths, but with the disadvantage that the cross section of the penetration channel is relatively low. The main mass of the insert, which is united in the ram, remains mostly hang in the penetration channel formed by the jet-shaped front part. On the other hand, the penetration depth of short or stocky projectiles, the obtained with obtuse-angled inlays, much smaller, while the diameter However, the penetration channel in this case becomes larger than when it is used acute-angled insert cone.

The temperature of the metallic projectiles is generally only a few hundred degrees and is therefore sufficient to achieve a fire effect in the interior armored targets are not out. The pressure effect in the interior is also usually low. To increase the fire and pressure effects, various possibilities were found examined; E.g. introduction of the explosives into the space behind the armor by so-called guide nozzles; Firing of an incendiary device by the metal one Projectile formed channel; Using a combination of a pyrotechnic Set and metal as insert material. However, none of these measures lead to Satisfactory results because either not enough fire substance through the penetration channel introduced or see the penetration power too much reduced.

The invention is based on the general object of the follow-up effect increase metallic projectiles. In particular, the effect of fire and / or pressure should be taken into account cturcl the metallic projectile can be increased. It should simultaneously a penetration performance can be achieved that with that of copper projectiles of similar size and shape.

It has now been shown that this object is achieved with an arrangement which is characterized in that it is one of a combination Exothermically reacting metals containing existing moldings, in which small cavities in such a large number available and arranged in such a distributed manner are that when a strong shock wave passes through (and the resulting deformationX such as the detonation of the explosive in the insert of a Shaped charge or when the projectile hits the armored target, local heating sufficient to initiate the exothermic reaction occurs.

With the arrangement according to the invention are in a very simple manner Projectiles with extremely high temperature and consequently with high fire resistance and / or pressure effect achieved without the penetration performance compared to comparable bars known projectiles made of copper or soft iron is reduced. To create the Ormkörper according to the invention, materials can be used that are comparatively - are cheap and resistant to corrosion. Processing and handling security as the shelf life of IIollllAdun6cn or projectiles is determined by the invention not impaired in any way.

According to an advantageous embodiment of the invention, it is provided the cavities roughly evenly distributed and in such a size and number to provide in the shaped body that the proportion of voids in the total volume of the shaped body is between 5 and 25%.

Furthermore, it is provided according to the invention, the molded body as Insert a shaped charge or form a projectile, in which case the exothermic Reactions in the former case due to the detonation of the explosive in the shaped charge and in the second case by the impact of the projectile on the target Sowellc be directed.

It is advantageous if the shaped body of the arrangement according to the invention consists of metals which, when mixed correctly, form a intermetallic compound of high heat of formation without gas development with one another react; gas evolution during the reaction would disrupt projectile formation and thus reduce the penetration performance of the projectile.

According to a further embodiment of the arrangement according to the invention the molded body is built up in layers. You can use expanded metal, for example combine one material with foils of the other metal in a press. The use of expanded metal has the advantage that the shaped bodies during pressing networked by the great ductility of the expanded metal and therefore extremely dimensionally stable will. However, all layers can also consist of expanded metal.

Other possibilities for producing the shaped bodies according to the invention are based on the use of metal tubes, metal sieves, pre-punched metal foils, crossed wires and the like. By the type of structure of the molded body or by the arrangement, size and number of cavities in the molded body and through the layer thick can be the course and duration of the exothermic reaction in Affect boundaries.

In a further embodiment of the invention, the molded bodies consist of a combination of aluminum with a metal of the 8th main group or the 4. Subgroup of the periodic table.

a combination of aluminum with nickel to produce the invention Shaped body has proven itself in terms of a high projectile temperature and penetration performance proved to be particularly favorable; there are temperatures of about 1000 ° C with such a Combination achieved.

Especially the suitability of a combination of aluminum and nickel for the arrangement according to the invention shows the amazing effect of the invention provided in the molded body cavities. The activation temperature of nickel-aluminum namely is around 8000C. The heating of metals when shock waves pass through them is at a shock wave pressure, wic it when exposed to highly explosive explosives occurs, however, only a few 10,000. By the detonation of the explosives is therefore initiation of the reaction is not to be expected without the measures according to the invention As the cause of the extraordinarily high level of initiation of the exothermic reaction sufficient temperature increase as a result of the shock wave in the inventive Arrangement can be considered in two ways. The cloth wave heating is at the structure of the shaped body mentioned according to the invention is larger than in the case of compact material and could together with the additional heating caused by the deformation bring about the activation temperature when creating the project. The other possibility is that due to the compression of the air-filled pores during passage the temperature of the air trapped in the pores far above that of the shock wave Activation temperature rises and thus the reaction in a large number of places triggers punctiform in the molded body.

Further merlunals, advantages and possible uses of the invention are based on the following illustration on the basis of the attached illustrations of design types of the invention.

Figures 1 and 2 show a highly schematic representation of longitudinal sections by including two different types of embodiment of shaped charges according to the invention of the projectiles created in each case. Figure la shows an enlarged scale Partial representation of the molded body according to FIG. 1.

In Figure 3 and 4 are - also schematically and in longitudinal section - Two types of embodiments of projectiles according to the invention are shown, which are used for advancement are provided with pipes.

The shaped charges according to Figures 1 and 2 each consist of the Explosives 1, the detonator 2 (possibly with an ignition deflector not shown here) and the molded body 3, designed here as an insert, within a sleeve /.

From the partial representation according to Figure la it can be seen that the molded body 3 has a plurality of small cavities 4 in an approximately even distribution.

In the case of the hollow charge shown in FIG. 1, the shaped body 3 is in Formed an acute-angled insert.

When this insert is deformed, projectiles quickly develop flying shaped charge jet 5 of low mass with a plunger flying behind it 6, which contains the main part of the insert material.

In Figure 2, a shaped charge is shown, which in principle has the same structure as the shaped charge according to FIG.

Because of the obtuse angle of the as conical in this case Insert formed molded body 3 results, however, in this embodiment the invention does not split the projectile into beam and ram, but it forms a bowl-shaped projectile 7, which, as has already been pointed out, in Compared to the embodiment according to FIG. 1, the armor has a penetration channel larger diameter causes.

In the case of the projectiles according to FIGS. 3 and 4, the molded body 3 is a projectile educated. The activation temperature necessary for the reaction is determined by the Heating up when the projectile hits the target or by the resulting Shock wave reached. In the embodiment of Figure 4 is still before the projectile an additional internal core 8 is provided, which increases the penetration power compared to the floor of Figure 3 can be increased.

When using the mentioned metal-metal combinations a compact, very high temperature projectile like this is formed from the insert Figures 1 and 2 show.

In the case of acute-angled shaped charges, it is a particular advantage if the plunger 6 arrives at the target in the molten state because it is then easier penetrates the channel formed by the jet-shaped projectile 5.

In summary, it should be noted that by the invention Measures in a very simple way and without additional equipment the considerably increased Fire and / or pressure effect is achieved.

Claims (8)

Patent claims ½) Arrangement for combating armored targets by means of metallic Projectiles, characterized in that they have a shaped body (3) made from a combination contains metals which react exothermically with one another and that in the molded body (3) small cavities (4) are present in such a large number and distributed in such a way that when a strong shock wave passes through, as is the case with a detonation of the explosive in the insert of a shaped charge or when the projectile hits on the armored target arises, sufficient to initiate the exothermic reaction Heating occurs. 2. Arrangement according to claim 1, characterized in that the cavities (4) are distributed approximately evenly in the molding (o) and that their share of The total volume of the molded body (3) is between 5 and 250/0. 3. Arrangement according to claim 1 or 2, characterized in that the shaped body (3) is designed as an insert of a shaped charge, the exothermic Reaction through the Detonation of the explosive (1) can be initiated is (Figure 1 and and 2). 4. Arrangement according to claim 1 or 2, characterized gekennzeiclmet that the Shaped body (3) is designed as a projectile, the exothermic reaction through the shock wave that occurs when the target hits the target can be initiated (Figure 3 and 4). 5. Arrangement according to one of claims 1 to 4, characterized in that that the shaped body (3) consists of metals, no gases or when they react Vapors are generated. 6. Arrangement according to one of claims 1 to 5, characterized in that that the shaped body (3) is constructed in layers and made of expanded metal of the one Material and Folicn of the other material consists, which through with the expanded metal Presses are connected. 7. Arrangement according to claim 6, characterized gekennzeiclinet that the reaction sequence and the duration of the reaction through the arrangement, number and size of the cavities (4) and can be influenced by the thickness of the individual layers. 8. Arrangement according to one of claims 1 to 7, characterized in that that the shaped body (o) consists of a combination of aluminum with a metal of the 8th main group or the 4th subgroup of the periodic table consists.