DE1006769B - Mixtures of explosives containing aluminum and processes for making same - Google Patents

Description

Mixtures of explosives containing aluminum and processes for their manufacture The same The increase of the explosive and incendiary effect of explosives by addition of aluminum grit develops in the known explosives-aluminum mixtures only incomplete, and in particular the explosiveness of such mixtures falls with increasing Aluminum content drops sharply. To suppress these undesirable properties, the original explosives-aluminum mixture is still higher in explosives Explosive and also oxygen carriers added. The expected effects were, however not reached.

The invention relates to such aluminum-containing explosive mixtures, those made up of a main explosive, aluminum shot and at least one additional explosive higher explosive factors exist alongside other additives commonly used in explosives technology and achieves a significant increase in the destruction and fire effects of such Explosive mixtures in that the more highly explosive additional explosives on the surfaces its particles (grains) receive an adhesive coating of aluminum. This aluminum coating is preferably produced according to the invention in that the one with the aluminum Explosives to be coated by a suitable solvent on the surfaces its particles softened, in this state with finely divided aluminum treated and then dried. Let these '@' forming the invention be omitted cause an unpredictable increase in effectiveness that has been confirmed in long series of tests of the explosives-aluminum mixture with the smallest addition of highly explosive explosives and at the same time enable a considerable increase in the previously customary add-on of aluminum grit.

The effect is presumably based on the fact that the aluminum coating is on the surfaces of the particles of the highly explosive as an ideal moderator works by burning immediately when detonated, with oxygen withdrawn from the high-risk explosives and their explosiveness is reduced, at the same time but there is an increase in energy through the burning of the aluminum coating. These Combustion of the aluminum coating forms finely divided, very intense heat sources, which increase the reactivity of the entire explosives-aluminum mixture and thus its explosive force and the destruction and fire effects are essential and enable considerable savings in highly explosive additional explosives.

The explosive mixtures according to the invention become theirs Production expediently in a mixture group 1, consisting of the main explosive, mixed with aluminum grit and other additives commonly used in explosives technology, and a mixture group 2, consisting of the more highly explosive additional explosive, the particles of which are firmly coated with finely divided aluminum.

Mix group 2 is first produced by adding the particles of the more highly explosive additional explosives are coated with finely divided aluminum. To do this, the granulated additional explosive to be treated is placed in a lockable one Vessel and pour a suitable solvent over it until it is about the same 10 mm above the explosive. The solvents used are mainly acetone and Glycol in use. It turns out to be expedient to use the solvent up to about 80% the saturation to saturate with the explosive to be treated. It is achieved by that in the treatment of the explosive no substantial amount of explosive in solution goes, but the nearly saturated solvent keeps the explosive particles on theirs The surface is sufficiently softened or made sticky. Then about 12 percent by weight is used the finest aluminum flakes added to the additional explosives. One closes the vessel and shake until the explosive that settles out looks well coated with aluminum. The supernatant liquid contains explosives in solution and parts of the aluminum flakes and can be used for further treatments after regeneration. The liquid one edges. The aluminum scales have now become huge Part deposited on the softened surfaces of the explosive particles and form after what has now happened. Drying the firmly adhering aluminum coating according to the invention.

Mixture group 1 is made from the ingredients in the usual way in a kneading device with the addition of a binding agent, for example collodion solution, mixed. Mixing group 2 is added during the mixing process and with Group 1 ready mixed. After suctioning off the excess solvent and. After adequate predrying, the mixture is mechanically granulated and dried. The novel explosives mixture according to the invention is thus completed.

The following examples explain the invention without, however, restricting it to the composition of the explosive mixtures given in the examples. example 1 Mixture group 1 Trinitrotoluene. . . . . . . . . . . . . . . . . . . 400.0 g, crystal powder Aluminum grit. . . . . . . . . . . . . . . . . 220.0 g, grain size 0.1 to 0.15 mm Barium nitrate. . . . . . . . . . . . . . . . . . . . 110.0 g, ground Collodion (dry weight). . . . . 18.0 g, in solution The collodion wool with about 12 0% N is dissolved in acetone to the syrup thickness and added as a binder. Mixture group 2 Hexogen. . . . . . . . . . . . . . . . . . . . . . 15.0 g, crystallized covered with aluminum. . . about 1.7 g, the finest flakes Example 2 Mixture group 1 Ammonite nitrate ..... . . . . . . . . . . . . 425.0 g, powder m-dinitrobenzene. . . . . . . . . . . . . . . . . 200.0 g, crystal powder Aluminum grit. . . . . . . . . . . . . .... 150.0 g, grain size 0.1 to 0.15 mm Binder: Collodion .......... as required Mixture group 2 Nitropenta. . . . . . . . . . . . . . . . . . . . . . 12.0 g, granulated with wax coated with aluminum ... about 1.5 g, the finest flakes Example 3 Mixture group 1 Nitroguanidine. . . . . . . . . . . . . . . . . . . 520.0 g, crystal powder Aluminum grit. . . . . . . . . . . . . . ... 210.0 g, grain size 0.1 to 0.15 mm Binder: collodion. .. ... . . . . as required, in solution Mixture group 2 Nitromannite. . . . . . . . . . . . . . . . . . 25.0 g, small crystals covered with aluminum. .. about 3.0 g, the finest scales The effects of the explosive mixtures produced according to the examples of the invention can be adapted to the requirements to be made by making appropriate changes to the composition, largely in terms of the degree of explosiveness, the gas impact and the fire effect.

Claims (2)

PATENT CLAIMS: 1. Explosives mixtures containing aluminum, consisting of a main explosive, aluminum shot and at least one additional explosive higher explosiveness in addition to other additives common in explosives technology, thereby characterized in that the particles of the more highly explosive additional explosive with finely divided Adhesively coated aluminum. 2. Method of producing the firmly adhering Aluminum coating according to claim 1, characterized in that the more explosive Explosives by a suitable solvent on the surfaces of its particles softened and treated in this state with finely divided aluminum and then dried.