DE3711993C1 - Process for phlegmatising (stabilising) explosives and propellants - Google Patents

Abstract

For phlegmatising an explosive or propellant, the latter is mixed with a phlegmatiser in the presence of a supercritical gas.

Description

The invention relates to a method for desensitizing of explosive or fuel by mixing it with one Phlegmatism.

In order to increase its handling safety, especially around it Making it less sensitive to friction and impact becomes an explosive phlegmatized, d. H. the explosive grains are with a Phlegmatism, e.g. B. a wax coated. To do this Wax and the explosives in a compulsory mixer with heating mixed together. The explosives are used for safety reasons used in the wet state and in the wet Water containing explosives after mixing in vacuum deducted.

The known method takes a relatively long time, especially to remove the water. Also the explosive grains partially only partially coated with wax, i.e. the Sensitivity of the explosive not to the desired extent decreased, even if a relatively high one Wax content of 5% by weight and more in the desensitized granules of explosives there is a reduction in the explosives content in the from the desensitized explosives pressed load is accepted.

The object of the invention is a relatively short time claim to provide desensitization process that to a reduced sensitivity of the explosive granules with a low phlegmatate content.

This is according to the invention by that specified in claim 1 Procedure reached.  

A supercritical gas is a gas that is exposed to a high pressure above its critical temperature (T _c ). At a temperature above the T _c and a pressure of at least 30 bar, preferably at least 50 bar, the density and the dielectric constant of gases jumps so that they reach liquid-like values. This in turn means that supercritical gases have a considerable solubility above a certain pressure and can therefore be used instead of solvents.

For this reason, supercritical gases are particularly suitable for Extraction of natural products has so far been used (Applied Chemie, Volume 90, 1978, Issue 10, especially 748 to 755 and 778 to 785).

Because of their relatively favorable data, carbon dioxide (T _c 31.3 ° C), ethylene (T _c 9.5 ° C) or Frigene, such as chlorotrifluoromethane (T _c 28.8 ° C) or trifluoromethane (T _c 25 , 9 ° C). Ammonia (T _c 132.3 ° C), n-propane (96.8 ° C) or nitrogen oxide (36.5 ° C) can also be used. Since carbon dioxide is inexpensive, environmentally friendly and easy to handle, it is particularly preferred according to the invention.

For practical reasons, the temperature at which the explosive or fuel is mixed with the phlegmatate is, according to the invention, at least 5, preferably at least 10 ° C. above the T _{c of} the gas used, while the upper limit in practice is a temperature of 100 ° C above the T _c forms. The pressure to be used when mixing the explosive or fuel with the desensitizing agent should, as mentioned, be at least 30 bar and at least 60, preferably at least 70 bar for carbon dioxide. For practical reasons, the upper limit of the pressure is around 1000 bar.

After mixing the explosive or fuel with the Desensitization in the presence of the supercritical gas becomes the Explosive or fuel granulated.

The explosive or fuel is granulated by Movement of the mixture under pressure reduction. The phlegmatized Granules are then expediently sieved.

According to the invention, a natural and / or synthetic wax and / or a plastic is used. As Plastics come in particular rubber, e.g. B. Buna, Polytetrafluoroethylene, e.g. B. Hostaflon, or polyurethane in Consider.

The explosives to be desensitized according to the invention are in particular crystalline high explosives, such as RDX, HMX or nitropenta. For security reasons, these can Explosives are moist, d. H. water content up to 30 % By weight.

Another advantage of the method according to the invention is that to see that in the pressure reduction only the supercritical Gas and, if applicable, that contained in the moist explosive Water evaporates, so no toxic solvent vapors be formed.

In order to avoid electrostatic charges, the Mixture of explosives and fuel and desensitizing a graphite powder to be mixed in.

The following example serves to further explain the invention.

example

In a 5 liter autoclave equipped with a stirrer 970 g RDX, 5 g graphite and 25 g wax (Lunacerin W 90). The autoclave is closed and with carbon dioxide at 50 ° C and pressurized to 90 bar. It'll be about 1 hour stirred and then relaxed with stirring to the carbon dioxide let down. The granules obtained are sieved with a Sieve of 1000 µm sieved.

The explosive grains are completely covered with wax. The The explosive content of the granules is 97% by weight.

Claims (7)

1. A process for the desensitization of explosive or fuel by mixing the same with a desensitization, characterized in that the mixing of the explosive or fuel with the desensitization is carried out in the presence of a supercritical gas. 2. The method according to claim 1, characterized in that the Mixing takes place in a temperature range that is 10 to 100 ° C above the critical temperature of the gas used lies. 3. The method according to claim 1 or 2, characterized in that mixing at a pressure between 50 and 1000 bar he follows. 4. The method according to any one of claims 1 to 3, characterized characterized in that carbon dioxide is used as the gas. 5. The method according to any one of claims 1 to 4, characterized characterized in that a wax or Plastic is used. 6. The method according to any one of the preceding claims, characterized characterized in that a crystalline explosive High explosive is used.   7. The method according to any one of the preceding claims, characterized characterized in that the explosive or fuel in one Proportion of at least 97 parts by weight and that Phlegmatism in a proportion of at most three Parts by weight is used.