DE2553315A1 - Multicomponent ammunition with improved detonating wave propagation - obtd. by gas impermeable layers at joint interfaces - Google Patents

Abstract

An explosive article, live ammunition head, etc. is composed of several components, some inert, some explosive, esp. in the form of a hollow charge comprising an inlay to guide the detonation wave into the charge, a conical transmitter charge and a peak amplifier charge. The joint surfaces of the explosive components have a gas-impermeable cover of inert material over the entire area. This cover is pref. a coating of lacquer or adhesive. As a result of the coating or covering at the joint surfaces, roughness, pores and cavities are reduced or eliminated, resulting in improved wave propagation. Tighter finishing tolerances are not necessary.

Description

Active body made of joined individual parts

The invention relates to an active body made of joined explosives or partly explosive, partly inert individual parts, especially rotationally symmetrical ones Illuminated charge with an insert for detonation wave guidance in the explosive charge, a cone transformer charge and a peak booster charge.

In experimental series with known active bodies of the type mentioned at the beginning A considerable variation in performance can be observed from time to time. Among the tested Active bodies are not infrequently found both those with unexpected overperformance, as well as those with disappointing performance results on the order of only 30% of the occasionally occurring maximum values. The mean power is mostly at 50% of the maximum value determined by the design.

This unsatisfactory situation can be explained as follows: Between the joining surfaces of the individual parts exists even if they are done with high precision are established, only in a few places - usually three in number - an intimate one Contact.

On closer inspection, there are consequently gaps between the joined individual parts. Although such gaps are often only fractions of a fraction tiillimeter wide, they still interfere with the proper Sequence of the detonation.

It is important whether it is longitudinal or transverse to the direction of detonation get lost.

Transverse gaps of the above-described origin have widths of some Tenths of a millimeter no measurable delay in the detonation velocity Episode. They are practically skipped at the speed of detonation. In them Due to the reduced density, there is only a pressure reduction, which is accompanied by progressive detonation front experiences a compensation. As a result turn out to be Even such pressure irregularities in the case of shaped charges are all the less disturbing, the further away the transverse gap causing it from the spine-forming lining lies.

On the other hand, the performance-reducing influence of the longitudinal column is far greater, because of the so-called channel effect that occurs. This is where the detonation front acts with the resulting reaction products, the so-called vapors, as a piston, which pushes and compresses the air present in the longitudinal gaps. There under these conditions the flow already has detonation speed, the shock wave speed must necessarily be greater than the first-mentioned speed be. In practice, for the shock wave velocity in the present case Values measured up to 14 km / sec. Because of these speed conditions learns the air in the longitudinal gaps is heated to high temperatures on the order of 20,000 to 30,000 OK. So heated and compressed is it capable of secondary explosives to ignite and thus undesirable Cause changes in the detonation wave profile. At constant speed of propagation However, such a profile change remains with the detonation wave. Explained from this The type mentioned at the beginning, for example, also in the case of shaped charges observed noticeable reduction in their penetration performance when talking about column standing lengthways far away from the spine-forming lining.

The object of the invention is to provide active bodies of the type mentioned at the beginning while renouncing a narrowing of the individual part tolerances over an economical noticeably increase the average power value by a justifiable level.

This object is achieved according to the invention in that the joining surfaces the explosive individual parts have a full-area, gas-impermeable cover made of inert material exhibit.

Such a measure can be implemented without great effort.

If it is seized, the explosive items are not at all more or at least far less susceptible to external initiation by hoch compressed hot gas, as in the case of that already described elsewhere Channel effect occurs. With the cover according to the invention, according to the design Features is designed as an easy-to-produce lacquer or adhesive layer, namely, roughness and pores on the joining surfaces of the explosive individual parts and thus completely the preferred points of attack for such external initiation eliminated or at least reduced to an insignificant level.

An exemplary embodiment of the invention is described below with reference to FIG schematic drawing explained in more detail.

The single figure shows, in longitudinal section, an axially acting charge warhead 1 rotationally symmetrical structure. Whose Housing 2 is at the rear The end is closed by a base 3.

At the front it is designed as a double contact hood 4. From the latter lead over ignition lines 5 in a known manner - for the sake of clarity not drawn - diodes and ignition capacitors to an electric detonator 6. The detonator 6 is in operative connection with a centrally located in the warhead base 3 arranged cone transformer charge 7 and is able to use this and a peak amplifier charge 8 to initiate the explosive charge denoted by 9, which is in its sting-forming funnel-shaped lining 10 opposite end region a rotationally symmetrical Recess 11 for receiving the peak amplifier charge 8 and one of the detonation wave steering Serving inert material insert 12. Cone transfer charge 7, peak booster charge 8 and explosive charge 9 have joining surfaces 13 and 14 or 15 to 17 or 18 to 21 all of which, for example, have a gas-impermeable lacquer layer 22 (joining surfaces 13, 14, 15 and 19) or with a gas-impermeable adhesive layer 23 (joining surfaces 16 to i8, 20 and 21) are completely covered. For the sake of clarity are the last-described covers 22 and 23 for the joining surfaces of the explosive Items 7 to 9 as well as the adjacent parting lines are shown oversized.

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Claims (3)

Claims 1. Active body from joined explosive or partly explosive, partly inert parts, in particular a load with an insert for detonation wave guidance in the explosive charge, a Kegeijib carrier charge and a peak amplifier charge, in that the joining surfaces (13, 14; 15 to 17; 18 to 21) of the explosive individual parts (7, 8, 9) a full-surface Have gas-impermeable cover (22, 23) made of inert material. 2. Active body according to claim 1, characterized in that g e k e n n z e i c h -n e t that the cover for the joining surfaces (13, 14; 151 19) of the explosive items (7, 8, 9) consists of a lacquer layer (22). 3. Active body according to claim 1, characterized in that g e k e n n z e i c h -net that the cover for the joining surfaces (i6, 17; 18, 20, 21) of the explosive items (8; 9) each consists of an adhesive layer (23).