DE3001909A1 - PLASTIC EXPLOSIVE COMPOSITION - Google Patents

Description

Industria de Material Belico do Brasil - IMBEL, Edificio Siderbräs, 1? andar - Q.2 - L-3, Bloco K, S.A.S., CEP 70,000 Brasilia - D.F., Brazil

P1as ti s before explosives composition

The invention relates to a plastic explosive composition.

The invention thus relates to a plastic explosive composition which is characterized by the Use of a water-based elastomer and an organometallic dye, which is used as a dispersant and emulsifier acts, further to the use of a suitable mixture of explosive explosives, which one ensure better plasticity and greater operational reliability in the manufacture of the composition.

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Bremen / Bremen Office:
P.O. Box / PO Box 10 7127
Hollerallee 32, D-2800 Bremen 1
Telephone: (0421) * 34 90 71
Facsimile / Telecopier: Rank Xerox 400
Telegr. / Cables: diagram Bremen
Telex: 244 958 bopatd

030031/0756

Accounts Bremen:

Bremer Bank, Bremen

(Sort code 290 80010) 100144

Deutsche Bank, Bremen

( Sort code 290 700 50) 1112002

PSchA Hamburg

(BLZ 20010020) 1260 83-202

Munich Office: Postfach / PO Box 14 0108 Schlotthauerstraße 3, D-8000 Munich 5 Phone: (089) 65 23 21 TelekopTTeiecop .: (089) 2215 69 R X. Telegr. / Cables: Telepatent Munich Telex: 523 937 jus d (code: forbo)

BOHl JMERT Λ BOEI

Plastic explosives actually emerged during World War II due to the need to make explosive charges to have that easily adapted by hand to the surface of the object to be destroyed or damaged could become. This gave rise to the connections C, which were used by the British Army engineering units and later became a standard in the United States. These compositions consisted of 88.3% explosive hexogen and 11.7% non-explosive plasticizing oil. The plasticizer contained 0.6% lecithin, which causes the formation of large hexogen crystals supported, which in turn could increase the sensitivity of the composition. Although the composition C is plastic stayed between 0 and 40 C, it became below O C brittle and tended to become rubbery at temperatures above 40 C and to excrete oil. she got replaced with Composition C-2, which contained 80% hexogen and 20% explosive plasticizer. The explosive one The plasticizer was made from mononitrotoluene, a liquid mixture of dinitrotoluene, trotyl, and nitrocellulose Composed of dimethylformamide. Such a composition C-2 was deformable between -30 and +52 C, but lost some of its deformability when stored in the Heat, due to the evaporation of its volatile components. So it was replaced with Composition C-3, which is 77-2% hexogen and 23-2% of an explosive Contained plastizieres. Such plasticizers contained mononitrotoluene, a liquid mixture of dinitrotoluene, Trotyl, Tetryl and Nitrocellulose. It looked like a yellowish paste with a specific mass of 1.6 g / cm and dissolved in acetone. The chemical stability of the composition C-3 was acceptable, but physical stability was not the least bit desirable;

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its volatility was such that it lost 1.2% by weight when exposed to air at 25 ° C. for 5 days; its moisture uptake at 30 ° C. and a relative humidity of 90% was 2%. Nevertheless, it still exhibited explosiveness (frictional force) after being immersed in water for 24 hours. When the composition was stored at 77 ^D C, it showed considerable segregation and was cured at 29 C. In view of such undesirable characteristics of this composition has been recently improved and created a new composition C-4, the following ingredients contained: hexogen (91%), polyisobutylene (2 _Λ 1%), engine oil (1.6%) and di (2 -ethyl-hexyl) -1.8 octanedicarbonate (sebacate) (5.3%). The. Composition C-4 is odorless, specific mass 1.59, does not harden at -57 C, and does not mix when stored at 77 C. Recently another composition was developed in the United States. It is known as a flexible explosive that is water-resistant and relatively easy to apply to surfaces of any shape. It is intended to destroy or, if used appropriately, to blast harden metal surfaces or to weld plates together. In any case, this explosive uses an organic solvent in its composition as a dispersant and to reduce sensitivity, something that limits its applicability, its storage and its ease of manufacture.

The object of the invention is therefore to address the disadvantages of plastic explosives described above avoid and create a new plastic explosives

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To provide settlement, and in particular improved resistance compared to water and has a better shelf life »

According to the invention, the object is achieved by a plastic explosive Composition solved, which is characterized by the use of a water-based elastomer as binding and sensibility-degrading medium.

The product of the invention is relatively flexible about one wide temperature range and can actually take any shape.

The product shows excellent water resistance in one for the period of time required for application, whereby its properties do not change with the hydrostatic pressure. That The product can still be easily cut into the desired shape with blades.

The product is safe and easy to manufacture whatever by the use of a water-based elastomer is possible, accordingly it can be used as a water-based elastomer Explosives are used. The invention is unique in that it produces a paste or mass that is folded, can be cut or poured into any shape / with great security and at the same time Ease of manufacture is offered by the mainly aqueous medium in which the mixing of the Components is carried out, is made possible.

The plastic explosive of the present invention is made by use a water-based resin and an organometallic Dye produced, this as

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Dispergent and desensitizer works. The innovation that characterizes the invention is that the components be mixed in an aqueous medium, which was previously not possible in the manufacture of the known plastic explosives was used.

The invention thus relates to a plastic explosive composition, through the use of a water-based elastomer as "binding and sensitivity." degrading medium as well as an organometallic see Dye that acts as a Dispergen 4ind Emuisator. she is further characterized by the use of a mixture explosive explosives that can be used when wet. Such a plastic explosive composition is deformable by hand and capable of any geometric shape of the surface of the object on which the composition should be placed, to accept.

Further features and advantages of the invention emerge from the claims and from the following description, in which an exemplary embodiment is explained using the drawing. This shows:

1 shows a test specimen in its original state, with an average hardness of 190 HB;

2 shows the test specimen after an explosion; 3 shows the test specimen after two explosions; 4 shows the test specimen after three explosions;

Fig. 5 is a diagram <ier depth variation of the hardened Layer as a result of the number of blasts; and

FIG. 6 shows the hardness against the depth corresponding to the number of blasts

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along the symmetry axis of the outline of a rail.

For the production of the plastic explosive according to the invention the following composition can be used:

Composition (%)

Highly explosive material A or B, or 65 - 75% mixture of the same

Highly explosive material (C) on nitro

aromatic base 5 - 7%

Resin (elastomer) ^s 17 - 25%

Plasticizer 2.5 - 4%

Dye 0.5 - 2%

The highly explosive materials A and B or their mixture in any desired ratio can, for example an explosive based on the nitrate of an aliphatic Polyhydroxy alcohol, such as pentrit (PETN, pentaerythritol tetranitrate), a cyclical explosive nitroarain-based such as hexogen (RDX, hexahydro-1,3,5-trinitro-1,3,5-triazine), or one Be a mixture of these two mentioned explosives. The highly explosive materials A and B and their mixtures A and B should have a grain size that does not leave relatively large residues, so it should pass through the sieve USSS 60 go. You should be using an organic solvent like an aliphatic ketone, more precisely a dimethyl ketone (acetone) are recrystallized, neutralized with an alkaline compound such as ammonium carbonate or deacidified and contain between 15 to 30% water. The resin used is preferably composed of

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2-ethyl-hexyl polymers * or any similar resin. The plasticizer can be one of the known phthalic acid esters known as palatinols, particularly preferred the dibutyl phthalate. As a dye we would like to mention, for example, a dye based on copper phthalocyanine. The highly explosive explosive based on nitroaromatic (C), which is used in the composition according to the invention must have a grain size that does not leave residues on the USSS-70 sieve and, if the explosives the 2,4,6-trinitrotolual. is of the detonation type (ignition point: 80.4 ° C).

The first process step is called premixing or homogenizing referred to, wherein the ingredients are intimately mixed by hand for 10 to 15 minutes and preferred wooden tools are used. The order in which the ingredients are introduced into the homogenization vessel (often a vessel made of aluminum, stainless steel or porcelain) is the following: resin, plasticizer, dye, Explosives C (dry) and explosives A or B, or a mixture of explosives A and B (preferably wet). The explosives A and / or B and the explosive C are added gradually.

The second step is more thorough Mixing the paste and initiating the plasticizing effect the resin / plasticizer facility. Preferred is a horizontal, sigma blade macarator with one of the capacity corresponding to the desired load, water-cooled at about 20 ° C (circulating jacket), whereby the total time of milling between 80 to 1ΌΟ minutes amounts to. The blade shafts rotate at the approximate speed ratio of 2: 1. Rush suitable Maza-

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rator is the Werner Pfleider type. For example is a typical blade speed ratio is 48:22 revolutions per minute.

After mixing, the paste or mass is carefully placed on trays which are brought to heating devices where they are kept at around 60 C for 24 hours. The moisture content drops to about 0.5 to 1%. For example Can heaters of the type with side shelves with forced hot air circulation be used. The air is heated by passing it over coils for steam. Nonetheless Any other heating device can also suffice, provided that she works safely. Once the dry matter or paste is obtained, the preliminary sheeting is done Mills operated with horizontal rollers at the same speed of rotation. For example, the thickness is between the rollers about 4 mm if the diameter is 300 mm and the speed about 14 revolutions per minute is. This operation is remotely controlled with a mechanical drive, which the bottom of the dry Paste that is to be laminated, opens the container containing the paste, which is located above the rollers. This procedural step takes about 20 minutes for each batch. The sheets thus obtained are then sequentially laminated on the same equipment, with the distance between the rollers reduced to the thickness of about 2.1 mm will. This lamination step is called final lamination.

In any lamination or rolling process steps the cylinders with a thin layer of glycerine made of safety

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safety reasons covered. Is particularly characteristic of the Invention that during the manufacturing process a resin / related organometallic pigment mixture based on water will. This simplifies the manufacture of the product and achieves greater safety, since the main components, the explosives can be used when wet.

The explosive according to the invention can be detonated a No. 8 detonator cap placed inside or on the surface of the paste of the explosive will.

The explosion of the explosive that is right on the too surface has been applied to the test, causes a shock and heat effect which, according to the purpose, on the metal or on the material being tested acts, whereby the following can be achieved:

a) Cutting, welding, casting and hardening of surfaces (plates, tools, etc.)

b) Underwater explosions.

c) General blasting.

d) Seismic investigations, production of linear waves, etc.

The effects of the plastic explosive according to the invention can be determined by its physical and chemical properties, which are given below and from the accompanying Figures 1, 2, 3, 4, 5 and 6, which refer to

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refer to the hardening of metal surfaces, are documented:

- Geometric shape (most common) ... panels of 2 mm or more

(It can also be in the form of a string, a ball, a tube, etc.).

- Detonation speed

(m / second) 7050 to 7250

-Combustion heat (calories / g;
J / g) 865; 3581.6

-Density (g / m ³ ) 1.5

-Gurney constant (m / second) ....... 2200

2
-Critical density (g / cm) 0.312

-Detonation pressure (Kbar) 200

-Chemical stability (Abel test) ... 20 minutes

Turn: 300 minutes Vap .: 300 minutes Exp .: 300 minutes

-Bergmann-Junk-Test 220 ° C 0.11 ml NO / g

- Warehouse check 3 days

-Vacuum stability "." .. · 23.7 ml

-Shock sensitivity (2 kg weight). 2.0 m

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-Sensitivity (standard detonator No. 8) .... 0.100

As a result of these physicochemical and thermodynamic properties, the product shows good behavior if it is correctly applied to the surface to be processed - in the exemplary embodiment described here, a metal surface to be hardened. In the accompanying Figures 1, 2, 3, A ₁ 5 and 6 is shown as follows: In Figure 1 of the original specimen is shown an average hardness of 190 HB. The effects of a blast on the test specimen is shown in FIG. 2, while in FIG. 3 the same test specimen is shown after two blasts. In FIG. 4 the test specimen is shown after 3 blasts. In FIG. 5, the dependency of the depth changes of the hardened surface, resulting from the number of blasts, is shown. FIG. 6 shows the dependence of the hardness on the depth corresponding to each number of blasts along the axis of symmetry of the rail outline.

The features of the invention disclosed in the above description and in the following claims can both individually and in any combination for the implementation of the invention in its various embodiments be essential.

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Claims (3)

BOFJ IMHRT & Bt) HI I 337 EXPECTATIONS Plastic explosives composition, featured through the use of a water-based elastomer as a binding and sensitivity-reducing medium. 2. Plastic explosive composition according to claim 1, characterized by mixing its components in a medium with excess water. 3. Plastic explosive composition according to one of the Claims 1 or 2, characterized by the use of a nitro-aromatic explosive as a component. 030Ö31 / 07S6