The invention relates to a method for producing a penetrator having a penetrator core composed of a tungsten heavy metal (THM) with a high fraction of tungsten and an exterior sheath composed of a material that is more ductile compared to the penetrator core.
Penetrators composed of a tungsten heavy metal alloy generally have a high fraction of tungsten (90 to approximately 97 wt.-%) because, due to their high mass, these materials have good penetration performance with vertical impact on simple armored targets. However, the high tungsten fraction causes brittleness in the material such that, in the case of oblique targets or multi-plate targets, the penetrator often breaks, even before penetrating the target. As a rule, due to their low mass, the kinetic energy of the relatively short broken pieces that result is not sufficient to penetrate the remaining target plate(s).
The brittleness of known THM penetrators frequently increases by virtue of the fact that, during mechanical processing, for example, during turning or grinding, cracks occur in the tungsten grains near the surface, which then may lead to an early failure of the penetrator in question due to the spreading of the cracks.
DE 41 13 177 C2 discloses removing the outer tungsten layers in the geometry of the finished penetrator by etching in order to increase the stability of mechanically processed penetrators. It has actually been shown that such an etching off of the exterior tungsten layers causes a considerable increase (i.e., up to 20%) in the impact value of the respective penetrator.
However, the known method has the disadvantage that acids must be used that are harmful to the application and to the environment. Moreover, the production of such penetrators is relatively labor intensive because the predetermined mass of the penetrator may not be influenced by the etching process.
Furthermore, DE 40 16 051 C2 discloses a penetrator in which a breakable penetrator core composed, for example, of tungsten heavy metal, is protected by a ductile shell. For this purpose, the ductile shell, composed, for example, of steel, is applied with a positive fit to the tungsten core by roller spinning. This known method is also relatively costly and time consuming.
The object of the invention is to provide a method for producing a penetrator with a brittle penetrator core and a ductile sheath that is simpler than comparable known methods.
This object is attained according to the invention by the features of claim 1. Other, particularly advantageous embodiments of the invention are disclosed in the subclaims.
The invention is essentially based on the idea of inserting a double funnel filling device adapted to the dimensions of the penetrator in a concentric fashion into an compression mold adapted to the outer dimensions of the penetrator. While the inner pipe is filled with a first powder mixture containing tungsten with a high fraction of tungsten (90 to 99 wt.-%) in order to produce the penetrator core, a second powder mixture containing tungsten with a lower fraction of tungsten (approximately between 83% and 91%) is placed in the annular space located between the outer wall of the inner pipe and the inner wall of the compression mold. After the inner pipe has been removed from the compression mold, the pressing of the powder mixture, the sintering, the cold forming of the compact, and finally the final processing of the penetrator blank, which are necessary for producing the penetrator, occur in a manner that is known per se.
By means of the method according to the invention, a penetrator is produced with a high-density core and ductile outer sheath connected to the penetrator core in a non-positive fashion, with the outer sheath preventing breakage in the case of oblique impact with the target. The production of a separate shell and time-consuming attachment of such a shell to the penetrator core, as is the case in DE 40 16 051 C2 cited above, may be omitted.
In an advantageous embodiment of the invention, a mixture with 95 wt.-% tungsten with the remainder of the mixture being composed of nickel and cobalt powder in a weight ratio of 9:1 has proven effective.
In a further embodiment of the invention, a second powder mixture containing tungsten with 87 wt.-% tungsten with the remainder of the mixture being composed of nickel and cobalt powder, also in a weight ratio of 9:1, has proven advantageous.
Further details and advantages of the invention may be found in the subclaims.
The invention will be described in greater detail below with reference to an exemplary embodiment and the drawings, which show:
In
A first powder mixture 4 containing tungsten with a tungsten fraction of 95 wt.-%, the remainder being composed of nickel and cobalt powder in a 9:1 weight ratio, has been placed in the inner pipe 3. Subsequently, a second powder mixture 5 containing tungsten with a tungsten fraction of 87 wt.-%, with the remainder also being composed of nickel and cobalt powder in a 9:1 weight ratio, is placed in the annular space.
After the insertion of the powder mixtures 4 and 5, the double funnel filling device is removed from the compression matrix 1 and subsequently the entire powder mixture is hydrostatically compressed after a preliminary compacting, for example, by shaking. Subsequently, depending on the desired specifications of the completed penetrator, the blank is sintered, heat treated, cold formed, heat released, and subjected to final processing by metal cutting, all in a manner that is known per se, for example, from U.S. Pat. No. 3,979,234.
A transitional area 8 results between the penetrator core 6 and the outer sheath 7 with a preferred thickness between 25 μm and 200 μm, which guarantees good adhesion between the core 6 and the sheath 7. The ductile sheath 7 is preferably removed in the pointed region by a chip removing process such that the point is composed of a core material and breaks in a brittle fashion upon impact with a target, resulting in ever sharper biting edges, which guarantee good biting behavior.
Number | Date | Country | Kind |
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10 2005 049 748.9 | Oct 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/009509 | 9/30/2006 | WO | 00 | 4/16/2008 |