DE19649763A1 - Explosives for civil, especially mining purposes - Google Patents

Abstract

The invention relates to an explosive substance for non-military use, notably mining, consisting of granulated ammonium nitrate and at least one carbon compound, particularly mineral and/or mineral oil products, whereby at least one of the following substances is added as additional ingredient or ingredients: at least 2 weight percent of used oil and/or heavy fractions of crude oil distillation and/or derivatives thereof containing a high proportion of oxygenated hydrocarbon compounds of high molecular weight; at least approximately 10 weight percent of ammonium nitrate particles with a particle size not exceeding approximately 2 mm; at least approximately 1 weight percent of ground bone grit with a grit size of approximately between 2 and 4 mm; at least approximately 1 volume percent of pneumatically introduced air bubbles, in such a way that the explosive substance has a density between 0.8 and 1.5 g/cm<3>. The explosive matter is both suitable for blasting dense rock and economical, since sensitivity and explosive power are increased by simple, low-cost means.

Description

The invention relates to an explosive for civil, especially mining purposes, with granulated Ammonium nitrate and at least one carbon compound, especially mineral oil and / or mineral oil products.

Such an explosive is one of the Ammonium nitrate explosives. It refers to handling-safe mixtures of granulated ammonium nitrate as an oxidizing agent and carbon compounds as Fuel. They are mainly found as rock explosives Use. A well-known example of generic Explosives are so-called ANFO explosives. The common one Short name ANFO stands for Engl. "ammonium nitrate plus  fuel oil ". These explosives contain ammonium nitrate Granules, the so-called prills, absorbed liquid Carbon compounds as fuel. Furthermore, a Emulsifier needed to prevent z. B. mineral oil and ammonium nitrate e.g. B. segregate under the influence of moisture. You can also use conventional additives such as swelling agents and the like contain. Their advantages lie in their safe handling and thus in the easy loading of boreholes and their uniform blasting behavior. Your biggest disadvantage e.g. B. compared to dynamite, is the lower explosive power and Sensitivity. If you want dense rock with conventional ANFO Blasting explosives, you have to drill more holes and these u. U. more heavily loaded. That means more effort and more Costs.

One can of course also add sensitizers to these Compensate for disadvantages. It is known e.g. B. Emulsion explosives or explosive sludge bound Add oxygen, for example in the form of Hydrogen peroxide. The gas must then come from the chemical Connection released.

It is also known to gas in small glass spheres, for example or include hollow microspheres and the explosives to mix. The gas is released from the explosion Balls free, but the beads make one  Dietary fiber that neither burns nor the explosion support is otherwise beneficial.

It is also known to include gas in epoxy materials. At the explosion burns the epoxy and thus creates (unlike glass) no residues.

However, these are specialty chemicals or Custom-made products that are correspondingly expensive.

An explosive of the generic type is known from British Patent 1,440,038. It contains 1-17% by weight of nitropropane and 1-17% by weight of an alkanol with 1 to 5 carbon atoms as fuel. The total content of these two substances is 10-18% by weight. With this explosive, a loading density of 1.1 to 1.55 g / cm ³ can be achieved. Although it has satisfactory explosive properties, it is relatively expensive and the components are difficult to meter in terms of their oxygen balance.

Another explosive is known from French patent specification 2 135 224. It is a water-containing explosive, the sensitivity of which is increased by the addition of heavy metal salts or heavy metal oxides in the order of 0.1 to 5% by weight, based on the weight of the emulsion. Suitable additives are e.g. B. chlorides, nitrates, chlorites, sulfites, chromium, iron, cobalt, nickel or copper oxides and mixtures of two or more of these components. The disadvantage of this is that this explosive still has a relatively low detonation speed of 2,400 to 2,800 m / s with loading densities of 0.78 to 0.85 g / cm ³ . This results in unsatisfactory blasting properties and high costs.

The object of the invention is the blasting properties, especially the sensitivity and explosive power of a Generic explosives on simple and inexpensive Way to increase.

The solution is that at least one of the following substances is added as a further constituent or constituents:

• - At least about 2% by weight of waste oil and / or heavy fractions petroleum distillation and / or their derivatives with a high proportion of high molecular weight, with oxygen saturated hydrocarbon compounds;
• - With at least about 10 wt .-% ammonium nitrate particles a grain size of at most about 2 mm;
• - at least about 1% by weight of ground bone meal with a Grain size of about 2-4 mm;  
• - Pneumatically introduced at least about 1% by volume Air bubbles;

and that it has an achievable loading density of 0.8 to 1.5 g / cm ³

having.

Used oil and / or heavy petroleum distillates such as B. Asphalt tar or Masut, not only increase the loading density and sensitivity of the explosive according to the invention, but also act as Emulsifiers. So you don't need any additional, mostly expensive emulsifiers more.

The use of waste oil as a fuel is also special environmentally friendly. The used oil burns at the Detonating temperatures and pressures residue-free. The drier the ammonium nitrate, the more Oil or waste oil can absorb it. The minimum is around 1.5-2.5% by weight for moist ammonium nitrate, regardless of Art and chemical composition of the oil. Are preferred Mixtures with about 5-7% by weight mineral oil, mineral oil products and / or waste oil and up to about 0.5% by weight of other combustible Additions.

The addition of finely divided ammonium nitrate increases the Packing density, thus the loading density and the explosiveness, because this increases the interfaces between the actual explosive and the fuel goes hand in hand. The Particle size is no more than about 2.0 mm. The amount  this particle should be at least about 10% by weight. About 15-25% by weight is preferred.

The semolina also acts as a sensitizer. This Effect is based on its porosity. Ground semolina has both open and closed pores. In the closed pores, air is trapped like the one below described air bubbles as sensitization and Initiation additive works. The open pores cause the semolina z. B. soaked with mineral oil and waste oil. This intimate connection leads to a clean and complete combustion.

The air acts both as an oxidizing agent and as Sensitization and initiation additive. The extension the air at the explosion increases the speed of the Shock wave and the normal gas volume, because more from the start gaseous substances are present. The spreading Shock wave hits the enclosed air bubbles. This are then pressed together. This will pressure and Temperature in the air bubbles increases sharply until the bubbles explode itself. The high temperatures also act as Igniter for further reactions of the ammonium nitrate with the Fuel. This plays out in many on a miniature scale finely divided air bubbles, so that the effects add up.  

The air bubbles are introduced pneumatically. An easy one Possibility to aerate the explosives is pneumatic loading of the borehole. The one in the borehole pressed explosives then contains in the cavities enclosed, finely divided air bubbles. Is the added carbon compound liquid, e.g. B. diesel or other mineral oil, it also contains air bubbles. It is, so to speak, "foamed". The air can of course also with all other conceivable pneumatic devices be introduced, for example when patrons.

As a result, the explosive according to the invention has an explosive force that is at least 20% higher than that of explosives of the generic type. The achievable loading density is 0.8 to 1.5 g / cm ³ . This explosive is particularly inexpensive, but like the dynamite that is dangerous to handle or the ANFO explosives mixed with expensive additives, it is suitable for blowing up particularly dense rock. Compared to conventional explosives, which are comparable in price, the effort for drilling the boreholes and the loading volume are significantly reduced.

There is of course the possibility of other, similar ones Oxidizing agent with other, similar Mix carbon compounds. This is at the discretion of the Professional.  

The explosive according to the invention can with high productivity and cost-effectiveness manufactured and used directly on site the blast holes are loaded. The explosives can be also produce patronized and spend in the boreholes.

This is a big advantage over conventional ANFO- Explosives. So far, these have not been in patronized form delivered. The higher density of the invention Explosives allow patronage.

Advantageous further developments result from the Subclaims. The waste oil can, for example, at least about 30 wt .-% Carbon, at least about 5% by weight hydrogen, at least about 1% by weight of sulfur, at least about 0.1% by weight of alcohols, Esters and / or asphaltenes, at least about 0.2% by weight Carboxylic acids and / or hydroxy carboxylic acids and / or oxo Carboxylic acids, at least about 0.5% by weight of oil resins and / or contain at least about 0.3% by weight of metal oxides.

It is also possible to use all or the usual mineral oil component partially replaced by used oil or heavy distillates. This further increases the loading density and sensitivity and the Emulsifier effect enhanced. Instead, the Explosives according to the invention additionally waste oil or heavy Distillates are added.  

The explosives according to the invention can also be mixed with further additives. These include oxidizing agents to adjust the oxygen balance, such as. B. granulated ammonium nitrate, in particular with a density of about 1.45 to 1.65 g / cm ² and a bulk density of about 0.85 to 0.95 cm ³ . This is e.g. B. of importance for underground explosions. Explosives with a negative oxygen balance would remove oxygen from the environment, which is undesirable and even dangerous underground. This effect does not occur with blasting over days. Other fuels such as mineral oil or mineral oil products can also be added. Powdery particles of one or more metals, metal salts and / or metal oxides can also be added. The addition of a saturated solution of ammonium nitrate in water has also proven useful, in particular in an amount of about 5% by weight or more.

The addition of combustible components and metals or metal compounds increases the achievable charge density by approximately 0.12-0.15 g / cm ³ and the heat of detonation by approximately 5%. This is described by the equation QU with Q = specific heat of detonation and U = specific gas volume during detonation (AM Cook, The Science of High Explosives, New York 1958, p. 440).

Further advantages, features and details of the invention result from the following description in which a  Embodiment of the invention is explained in detail. The can in the claims and the description mentioned features each individually or in any Combination be essential to the invention.

The technical terms used are defined as follows:
The term oxygen balance denotes the oxygen content of an explosive, more precisely, that amount of oxygen in% by weight which is released when the explosive is completely converted (positive oxygen balance) or is additionally required for the complete conversion. The closer this value is to zero, ie the more the oxygen balance is balanced, the more effective the explosive. In this connection, reference is made to GB 1,440,038 and the literature cited therein, in particular to Chemical Reviews, Vol. 44, pp. 419-445 (1949).

The heat of detonation is the one released in the explosion Thermal energy, calculated from the difference in educational energies of the explosive or the components of the Explosives mixture and the educational energies of the Reaction products. The normal gas volume is the total volume of the full implementation of the explosives resulting gases, based on 0 ° C and 1.013 bar. Out The heat of detonation and normal gas volume can be  Worker or the working capacity of the explosive to calculate.

The loading density is the ratio of the weight of the Explosives to the volume of the explosion space. The bigger the Loading density is, the greater the explosiveness and the The lower the explosive power, however Detonation ability. The speed of detonation is that Velocity in m / s with which the detonation in Explosives are advancing. The explosiveness or the impact pressure is the product of loading density, specific explosion pressure in the shock wave and detonation speed of the Explosives.

A first embodiment of the present invention contains about 6 to 7 wt .-% of a mixture of waste oil and / or heavy distillates with diesel oil in the ratio of about 1: 1, about 20% by weight ammonium nitrate with a particle size of 2.0 mm and about 74 wt .-% ammonium nitrate prills. A Emulsifier is not required. With this pourable Prepared boreholes are filled with the mixture.

In the case of pneumatic filling, the mixture is Borehole compressed and at the same time in shape with compressed air finely divided air bubbles. The Mineral oil mixture, so to speak, "foamed". In water-filled The pressure of the compressed air should match the hydrostatic wells  Exceed pressure. The higher the boost pressure, the sooner can on crushing some of the ammonium nitrate prills to be dispensed with. You will then be ground during transport.

The achievable loading density is observed from 0.8 to 1.5 g / cm ³ compared to the achievable loading density of 0.8-0.9 g / cm ³ with conventional pourable explosives of the ANFO type.

The detonation speed of a typical ANFO charge is approximately 2.5-3.0 km / s at a charge density of 0.9 g / cm ³ . The detonation speed of the explosive according to the invention with the above-mentioned composition is observed at a loading density of approximately 1.2 g / cm ^{3 and} approximately 3-3.6 km / s. This results in excellent blasting behavior, in particular high explosiveness and satisfactory work ability.

The concrete achievable values depend on the closer ones Circumstances of demolition, especially of the type of rock and the positioning of the boreholes. But they are like that high that even particularly hard rocks and others have hard materials released.

The addition of 5 wt .-% saturated ammonium nitrate solution and more increases the detonation speed to over 3.5-3.8 km / s. Metal particles increase the loading density and the  Detonation temperature. Bone semolina is, as mentioned above, a effective sensitizer.

Through the appropriate selection of components and the dimensioning their proportions in the explosives according to the invention can be produce numerous variants that the specialist can adapt to changing external conditions. The Possible combinations are extremely diverse. It is sufficient if at least one of the invention Additives are used to improve the To achieve explosive behavior. Through an adequate selection of The person skilled in the art can additive and their proportions Explosives according to the invention "tailor-made" to a certain extent.

Some basic types of the explosives according to the invention are listed below by way of example:

• 1. With the subsequent addition of about 2% by weight of used oil and / or masut and / or asphalt tar to conventional ANFO explosives, a free-flowing, inexpensive explosive charge with an achievable loading density of about 1.15 to 1.2 g / cm ^{3 is obtained} . The detonation speed is more than 2200 m / s.
• 2. With the subsequent addition of about 2% by weight of waste oil and / or masut and / or asphalt tar and / or diesel oil, about 1% by weight (or more) of semolina with a grain size of about 2 to 4 mm and about 1 volume .% Air bubbles (or more) to conventional ANFO explosives gives a pourable, inexpensive explosive charge with an achievable loading density of about 1.2 g / cm ³ and a detonation speed of more than 2600 m / s.
• 3. With the subsequent addition of about 5 to 15% by weight of a saturated solution of ammonium nitrate in water, about 1% by weight (or more) of semolina with a grain size of 2 to 4 mm and about 1% by volume (or more) Air bubbles are a waterproof, inexpensive explosive charge with an achievable charge density of about 1.2 to 1.4 g / cm ³ and a detonation speed of more than 3000 m / s.
• 4. Mixing about 10 parts (or less) of a saturated solution of ammonium nitrate in water with 2 parts (or less) of waste oil and / or masut and / or asphalt tar and / or diesel oil, about 1% by weight (or more) of semolina With a grain size of 2 to 4 mm and about 1 vol.% (or more) air bubbles, you get an inexpensive, waterproof emulsion explosive with an achievable loading density of more than 1.2 g / cm ³ and a detonation speed of more than 3500 m / s.
• 5. If 10 to 80% by weight of an emulsion having the composition described under 4 is mixed with about 20 to 90% by weight of conventional ANFO explosive, about 1% by weight (or more) of semolina with a grain size of 2 up to 4 mm and about 1% by volume (or more) of air bubbles and about 1 to 2% by weight of powder of different types of metal, you get a waterproof explosive with a higher explosive power, an achievable loading density of 1.2 to 1.5 g / cm ³ and a detonation speed of more than 4000 m / s.

Claims (17)

1. explosive for civil, in particular mining purposes, with granulated ammonium nitrate and at least one carbon compound, in particular mineral oil and / or mineral oil products, characterized in that at least one of the following substances is added as a further constituent or further constituents:

• - At least about 2% by weight of waste oil and / or heavy fractions from petroleum distillation and / or their derivatives with a high proportion of high molecular weight, hydrocarbon compounds saturated with oxygen;
• - at least about 10% by weight of ammonium nitrate particles with a grain size of at most about 2 mm;
• - at least about 1% by weight of ground bone meal with a grain size of about 2-4 mm;
• - at least about 1% by volume of pneumatically introduced air bubbles;

and that it has an achievable loading density of 0.8 to 1.5 g / cm ³ . 2. Explosive according to claim 1, characterized in that the waste oil contains at least about 30% by weight of carbon, at least about 5% by weight hydrogen, at least about 1 % By weight of sulfur, at least about 0.5% by weight of oil resins, at least about 0.1% by weight of alcohols, esters and / or Asphaltenes, at least about 0.2% by weight of oxyacid and / or Carbenes and / or at least about 0.3% by weight of metal oxides contains. 3. explosive according to one of the preceding claims, characterized in that the carbon compound all or part of waste oil and / or heavy Petroleum distillates and / or their derivatives with a high Proportion of high molecular weight, saturated with oxygen Hydrocarbon compounds exist. 4. explosive according to claim 1 or 2, characterized characterized in that the waste oil content is about 2 to 4 % By weight. 5. explosive according to one of the preceding claims, characterized in that it additionally as an additive at least about 2% by weight mineral oil and / or Contains mineral oil products and / or waste oil.   6. explosive according to one of the preceding claims, characterized in that it as an additive additional contains granulated ammonium nitrate. 7. explosive according to claim 6, characterized in that the additional ammonium nitrate has a density of about 1.45-1.65 g / cm ³ and a bulk density of about 0.85-0.95 g / cm ³ . 8. explosive according to one of the preceding claims, characterized in that it is also an additive powder particles of one or more metals, Has metal salts and / or metal oxides. 9. explosive according to one of the preceding claims, characterized in that it is also an additive at least about 5% by weight of a saturated solution of Contains ammonium nitrate in water. 10. explosive according to one of the preceding claims, characterized in that it is pourable or gel-like or is liquid. 11. explosive according to one of the preceding claims, characterized in that it is in cartridge form is present.   12. Explosive according to one of the preceding claims, characterized by the following composition:

• 50-70% by weight granulated ammonium nitrate with a bulk density of 0.75-0.85 g / cm ³ ;
• - 2.5% by weight of diesel fuel;
• - 2.5% by weight of used oil and / or heavy petroleum distillates;
• - 1-5 vol.% Finely divided air bubbles;
• - 1-5% by weight of semolina;
• - 5-15% by weight saturated ammonium nitrate solution in water;
• - 10-30% by weight of ammonium nitrate particles;
• - 1-2 wt .-% metal particles.

13. explosive according to one of claims 1 to 11, characterized by the following composition:

• 90-95% by weight of granulated ammonium nitrate with a bulk density of 0.75-0.85 g / cm ³ ;
• - 4-8% by weight of diesel fuel;
• - 2-6% by weight waste oil and / or heavy petroleum distillates.

14. Explosive according to one of claims 1 to 11, characterized by the following composition:

• 80-90% by weight of granulated ammonium nitrate with a bulk density of 0.75-0.85 g / cm ³ ;
• - 4-8% by weight of diesel fuel;
• - 2-6% by weight of waste oil and / or heavy petroleum distillates and / or diesel fuel;
• - 1.5% by volume of finely divided air bubbles;
• - 1.5% by weight of semolina.

15. Explosive according to one of claims 1 to 11, characterized by the following composition:

• 70-90% by weight of granulated ammonium nitrate with a bulk density of 0.75-0.85 g / cm ³ ;
• - 4-8% by weight of diesel fuel;
• - 1.5% by volume of finely divided air bubbles;
• - 1.5% by weight of semolina;
• - 5-15% by weight saturated ammonium nitrate solution in water.

16. Explosive according to one of claims 1 to 11, characterized by the following composition:

• - About a maximum of 10 parts of a saturated ammonium nitrate solution;
• - about a maximum of 2 parts waste oil and / or heavy petroleum distillates and / or diesel fuel;
• - 1-5 vol.% Finely divided air bubbles;
• - 1-5% by weight of semolina.

17. An explosive according to claim 16, characterized by the following composition:

• - 10 to 80 wt .-% of the mixture according to claim 16;
• - 20 to 90% by weight ANFO explosive consisting of approximately 94% by weight ammonium nitrate and approximately 6% by weight diesel fuel;
• - 1.5% by weight of semolina;
• - 1.5% by volume of finely divided air bubbles;
• - 1-2% by weight of metal powder.