TH7142A - Explosive mixtures - Google Patents

Abstract

Explosive mixtures containing A water-in-oil emulsion mixture containing intermittent water cycle, which at least contains oxygen-releasing salts. The organic cycle that does not mix with water And water-in-oil emulsions of 45 to 95% by weight and solid mixtures, especially ammonium nitrate, 5 to 55% by weight and brookfield viscosity of water-in- The oil ranges from 25,000 to 60,000 centipoise. The advantage of the mixture is that it can be filled through the collars of the water compartment.

Claims (1)

1. Mixture of explosives consisting of mixing. Emulsion mixtures Water in oil contains discrete water cycles, which at least contain salts, releasing oxygen. The organic cycle that does not mix with water And water-in-oil emulsions of 45 to 95% by weight and solid mixtures, especially ammonium nitrate, 5 to 55% by weight and brookfield emulsion viscosity. Water-in-oil In the range from 25,000 to 60,000 centipoise 2. Explosives compound according to claim 1, where Brookfield viscosity of water-in-oil emulsion In the range from 28,000 to 40,000 centipo. 3. Explosive mixtures according to claim 1 or 2. The water-in-oil emulsion consists of a continuous cycle with a viscosity ranging from 4 to 1000 centi-stokes. 4. Explosive mixtures according to Clause 1 to 3. Any one The water-in-oil emulsion consists of a continuous cycle with a viscosity ranging from 6 to 200 centi-stoke 5. Explosive mixtures according to claims 1 to 4. The continuous cycle consists of paraffinic oil 6. Explosives mixtures according to Clause 1 to 5, any one The emulsifying agent consists of a condensed product of amines and poly [lc (e) il] succinic acid and / or anhydride. Any of the claims 1 to 6 in which the emulsifier contains ethanolamine condensate. And polyisobutylene succinic anhydride 8. Explosive mixtures according to any of Clause 1 to 7, in which the emulsifying agent contains A condensation product. Thanilamine And polyisobutylene succinic anhydride and which the continuation cycle consists of paraffin oil 9. Explosives mixtures according to one of the claims clause At 1 to 8, which this explosive mixture also contains a gap-forming agent selected from a group containing granular air bubbles. Distributed in the mixture Particle with cavity Porous particles or their mixtures 1 0. Explosive mixtures according to any clause 1 to 9, in which explosive mixtures contain from 45 to 95% by weight of the emulsion. Water-in-oil That consists of a discrete water cycle Which contains salts that release oxygen At least one Continuous organic cycle that does not combine with water Water-in-oil emulsifier And at least there is one substance capable of producing gas bubbles in the organic cycle conditions that do not combine with such water and from 5 to 55% by weight of all solid mixtures. Especially ammonium nitrate And which substances cause water-in-oil emulsions These are selected from a group containing condensed products of amines and poly (lc (e) il] succinic acid and / or anhydrides and their mixtures. That 1 1. Mixture of explosives according to any of the Clause 1 to 10 in which explosive mixtures contain a water-in-oil emulsion And solids, in particular ammonium nitrate, in the range 45:55 to 70:30 1 2. Explosive mixtures according to any of Clause 1 to 11, in which the explosive mixtures contain a water-in- oil And solids, especially ammonium nitrate, in the proportion of water-in-oil emulsion: solids, especially ammonium nitrate, are in the range 45:55 to 60:40 1 3. Explosive mixtures according to any of the Claims 1 through 12, where solids, particularly ammonium nitrate, contain less than 10% of the fuel as a constituent by weight of the solids. In particular, ammonium nitrate 1 4. Explosive mixtures according to any Clause 1 to 13, where solids, especially ammonium nitrate, contain less than 6 of fuel as a component. % By weight of solids In particular, Ammonium Nitrate 1 5. Process for preparing mixtures according to any of Clause 1 to 14, where the process consists of mixing a water-in-oil emulsion from 45 to 95 parts by weight. With solids, especially ammonium nitrate, from 5 to 55 parts by weight 1 6. Process according to claim 15, in which the water-in-oil emulsion It can be prepared according to basic methods which include: dissolving the oxygen-releasing salts at a temperature above the crystallization point of the salt solution. Should be used is the temperature in the range from 25 to 110 C to obtain a salt solution in water Inclusion of aqueous salt solution The organic cycle is not homogenous And water-in-oil emulsifier with rapid mixing to obtain water-in-oil emulsion. And mix until emulsion evenly. 1 7. Process according to any of Clause 15 or 16, which also consists of mixing emulsion elements. Or one element Or more of those things Gas-stabilizing agent and substance capable of instantaneous gas-foaming required 1 8. Method of loading explosive mixtures according to any of Claims 1 to 4 into the compartment. Water consists of pouring the said explosive mixture into the water chamber from where it is attached to the collar of the water chamber. Any one of claims 1 to 14 in the compartment containing water and igniting the explosive 2 0. Method for exploding water in the compartment according to claim No. 19, in which the weight ratio of the explosive / water mixture is less than 10 2 1. Method of exploding in the water chamber according to claim No. 19 which is proportional by weight of the explosive / water mixture In the range from 1/1 to 6/1 ch