DE19539209A1 - Free-flowing emulsion ANFO explosives - Google Patents

Description

The invention relates to a free-flowing emulsion ANFO Explosives with a density in the range of 0.65 to 1.15 g / cm³ and a method of manufacturing the same.

Mixtures of are referred to as emulsion ANFO explosives Emulsion explosives and the underlying emulsion matrices with common ANFO explosives, (i.e. ammonium nitrate Prills soaked in mineral oil) or ammonium nitrate Prills alone. Here comes the part attributable to prills of mineral oil from the emulsion. The term emulsion ANFO Explosives are therefore derived from the fact that a common ANFO Explosives has a density of about 0.85 g / ml during the Addition of the specifically heavier emulsion increases the density and so that the weight of the volume unit is greater than usual ANFO explosives.

Common ANFO explosives are preferably made from ammonium nitrate (Ammonium nitrate) in the form of porous prills and about 6% liquid Hydrocarbons produced. As a result of her Unem Sensitivity no safe detonation transfer from cartridge to ensure cartridge, they are in continuous loading column applied; they are therefore drilled in vertical holes  by pouring and blowing into horizontal boreholes Explosive devices loaded with hose. A good trickle ability, favored by the prill structure of the usual ANFO- Explosives are a prerequisite for this.

While common ANFO explosives are not waterproof, the is Emulsion waterproof due to its structure. The usual ANFO- Explosives can be transported pneumatically, i.e. blown be while the emulsion as a highly viscous liquid only can be pumped. By mixing usual ANFO blasting Substances or ammonium nitrate prills with emulsions have so far been used Heavy emulsion ANFO explosives in the prior art received that have been pumpable.

The problem of the present invention is therefore that of Provision of free-flowing emulsion ANFO explosives high density. Since usual ANFO explosives are blown, while the emulsion and the emulsion ANFO explosive according to state of the art can only be pumped are users which has the advantages of an emulsion ANFO explosive, namely the higher energy density, the better detonation ability or the want to use better water resistance on new elaborate Equipment for loading emulsion ANFO explosives reliant.

The above problem is addressed in a first embodiment form solved by free-flowing emulsion ANFO explosives available with a density in the range of 0.60 to 1.15 g / cm³ by

• a) Mixing ammonium nitrate prills with highly disperse Powder substances and subsequent mixing of the resultant Prills with a fuel-containing emulsion matrix or by
• b) Mixing ammonium nitrate prills with a fuel containing emulsion matrix and then mixing the emulsion ANFO explosive thus obtained with highly disperse Powder materials.

The density specifications relate to a compact one Material.

The essence of the present invention is thus one first variant in it, ammonium nitrate prills with an emulsion to mix and the resulting sticky, non-blowable Mix with finely ground substances to treat the Spread the surface, dry it out and blow it do.

However, in order for the emulsion to spread well onto the prills, according to the invention, they are not already used as usual Mineral oil mixed in the desired ratio, but one ver turns the bare ammonium nitrate prills. These can do themselves already treated with common additives, such as organic ones surface-active substances from the manufacturing process and / or with so-called anti-caking or powdering substances that guarantee free flowability.

As is known, the composition of the emulsion can vary widely Limits are varied, for example from EP-A-0 393 887 or US-A-4,555,278. According to the invention, you now choose the ratio of oxidant to fuel in the Emulsion so that after mixing with the ammonium nitrate prills the oxygen balance of the finished product in the desired ratio Emulsion ANFO explosive is about neutral to the optimum in terms of energy and toxic swath content receive.

Since ammonium nitrate has a positive oxygen balance, must the more additional fuel the emulsion will absorb, ever greater the proportion of prills in emulsion ANFO explosives shall be. According to the invention are particularly preferred free-flowing emulsion ANFO explosives with a density in the Range from 0.65 to 0.9 g / cm³.

Surprisingly, it was found that by adding certain  Powder materials from a sticky material a free-flowing blow capable substance can be obtained. Surprisingly, takes the explosiveness of the explosive, measured as a compression according to Hess (J. Köhler, R. Meyer, Explosivstoffe, 8th edition (1995) pp. 56-58) and as the rate of detonation with increasing proportion Powder too, even if this powder is considered thermodynamically Inert substance is to be considered.

Powder substances in the sense of the present invention include general understanding a kind of flour, an accumulation of Solid particles with a particle size below 100 microns, which for example as medical or cosmetic preparations serve local application on the skin.

Particularly preferred powder substances in the sense of the present Er invention are selected from fumed silica, aluminum oxide, magnesium oxide, chalk, magnesium carbonate, Kaolin, talc, zinc oxide, titanium dioxide, strontium carbonate, Strontium sulfate, calcium sulfate, bismuth salts, stearates of Magnesium, zinc, titanium, calcium and aluminum, cereal starch and / or soot.

The larger the specific surface of the powder materials, the more the required proportion of the powder is less Composition of the free-flowing emulsion ANFO explosives. In principle, the is to achieve the free flowability of the Emulsion ANFO explosives required proportion of powder substances depending on the ratio of the two substances -emulsion and ammo nium nitrate prills - on the nature of the emulsion itself and the oil absorption behavior of ammonium nitrate prills. Erfin according to the invention show amounts of at least 1.5% by weight of powder material, based on the free-flowing explosives, already very good Effect. Particularly preferred in the sense of the present invention amounts of the powder are in the range from 1.5 to 5% by weight, based on the pourable emulsion ANFO explosive.

Another embodiment of the invention consists in the method  for the manufacture of the free-flowing ANFO explosive mentioned above fabrics. First, ammonium nitrate prills are high dispersed powder and then mixed added prills with the emulsion matrix.

Another embodiment of the method according to the invention for the manufacture of the free-flowing ANFO explosive mentioned above substances is the ammonium nitrate prills with a burning substance-containing emulsion matrix and then the so he holding emulsion ANFO explosive with highly dispersed Mix powder materials.

With the help of the present invention it is possible to manufacture inexpensive emulsion ANFO explosives, whereby those for loading common ANFO explosives into boreholes previously used technology can continue to be used.

Embodiment example 1

Using 69.7 parts by weight of ammonium nitrate, 14.3 parts by weight Parts of water and 16.0 parts by weight of fuel, technical White oils, paraffin-based or naphthen-based raffinates, paraffin-based solvates each have a low viscosity, Handelsbe drawing Catenex P908 (Shell), Wioltan PSH8 (Wintershall) including emulsifier (bisalcoholamine derivative one polyisobutylene-substituted succinic anhydride, PIBSA) in an amount of 1% by weight, based on the matrix, was a Emulsion matrix produced.

The emulsion matrix thus prepared (33 parts by weight) was then with ammonium nitrate prills (67 parts by weight) in mixed in a known manner. This emulsion ANFO explosive (HA) was found with increasing proportions of highly disperse silica available under the name Cab-O-Sil® in the in the table 1 mentioned ratios mixed. The silica used  had a specific surface area of 200 ± 25 m² / g and one Density of 0.04 g / ml.

The detonation rate and explosiveness were measured in which the fabric in a 2.54 cm (1 ′ ′) steel tube with a length of 30 mm, a wall thickness of 4 mm through a 25 g booster made of Seismoplast®. The speed of detonation was measured optoelectronically, the explosiveness by indentation an underlying steel plate, 10 mm thick, determined.

The following table 1 gives the bulk densities of the income compacted material and the results obtained again.

Claims (7)

1. Free-flowing emulsion ANFO explosive with a density in the range of 0.6 to 1.15 g / cm³, available from

• a) Mixing ammonium nitrate prills with highly disperse powder materials and then mixing the prills thus obtained with a fuel-containing emulsion matrix or by
• b) Mixing ammonium nitrate prills with a fuel-containing emulsion matrix and then mixing the emulsion ANFO explosive thus obtained with highly disperse powder materials.

2. Explosives according to claim 1, characterized in that the Density is 0.65 to 0.9 g / cm³. 3. explosives according to claim 1, characterized in that the Powder substances are selected from pyrogenic silica, Aluminum oxide, magnesium oxide, chalk, magnesium carbonate, kaolin, talc, zinc oxide, titanium dioxide, strontium carbonate, strontium sulfate, calcium sulfate, bismuth salts, Stearates of magnesium, zinc, titanium, calcium and aluminum, Starch and / or soot. 4. explosives according to claim 1, characterized in that they at least 1.5 wt .-% powder based on the trickle capable explosives. 5. explosive according to claim 1, characterized in that it Contain 1.5 to 5 wt .-% powder. 6. Process for the preparation of free-flowing emulsion ANFO Explosives according to one or more of claims 1 to 5 by mixing ammonium nitrate prill with highly disperse Powder substances and subsequent mixing of the resultant Prills with the emulsion matrix.   7. Process for the preparation of free-flowing emulsion ANFO Explosives according to one or more of claims 1 to 5 by mixing ammonium nitrate prills with a Fuel-containing emulsion matrix and subsequent Mix the emulsion ANFO explosive thus obtained with highly disperse powder materials.