DE1183846B - Explosive mixture - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: C 06 b

German class: 78 c-17

Number: 1183 846

File number: A 41615 VI b / 78 c

Filing date: November 14, 1962

Opening day: December 17, 1964

The invention relates to novel, inexpensive explosives.

The invention relates to a particulate! Blasting mixture consisting of ammonium nitrate and a liquid organic sensitizer, which is characterized in that the sensitizer is a mixture of a common liquid Hydrocarbon-based fuel with a mononitroalkane liquid at room temperature, especially Nitromethane, optionally with the addition of a solubilizer, or a liquid ketone and that the oxygen balance of the explosive mixture is in the range of about -25 to +25.

When using explosives, the need for adequate security is one for that Workers in the field constantly present problem. Many used in practice or in the field Explosives are compounded into a finished form in the manufacturing facility and from there to Point of use sent. Special precautions must be taken during shipment will. Often times, these precautions include shipping route restrictions the explosives and the type of carrier, etc. Furthermore there are restrictions on the manner in which explosives are shipped and stored can be.

As a result of these shipping, storage, etc. requirements, dynamite and others are fragile It is quite expensive to ship and store explosives. This is reflected in proportionate high cost of the explosives, which must be borne by the end user.

In many field applications it is desirable to have an explosive in a thin borehole detonate which is in the rock or other material to be blasted away, is drilled. Since ammonium nitrate fuel oil explosives create a large diameter borehole (about about 5 cm in diameter), they are unsuitable for such operations. In these cases Dynamite must be used as it detonates in a small diameter borehole.

In today's blasting operations it is often necessary to have two types of explosives on hand to have. The first type is the ammonium nitrate fuel oil explosive, which has a hole in proportion large diameter required to detonate therein, and that of initiation or ignition requires an auxiliary or additional charge made of dynamite or some other sensitive material. Of the The second type of explosive is dynamite, the ratio-explosive mixture

Applicant:

Aerojet-General Corporation, Azusa, Calif.

(V. St. A.)

Representative:

Dr.-Ing. K. Boehmert

and Dipl.-Ing. A. Boehmert,

Patent Attorneys, Bremen 1, Feldstr. 24

Named as inventor:
Thurber White Royer, Arcadia, Calif.,
Thurber White Royer, Arcadia, Calif .;
(V. St. A.)

Claimed priority:
V. St. ν. America November 17, 1961
(153 222)

is moderately expensive and dangerous at work. This explosive is widely used as an auxiliary charge for ammonium nitrate fuel oil explosives, and it continues to be used solely for blasting operations which require the use of small diameter wells. Accordingly, current blasting operations always require the presence of large quantities of a relatively sensitive explosive, e.g. B. vönV'Dynamit, which must be transported and stored as an explosive. This creates permanent security threats. The use of two types of explosives also leads to storage and handling problems at the blasting site, since the explosives should be stored separately.
Many explosives are solid bodies that are molded into a given shape during manufacture. Illustrative of this is the fact that dynamite is generally in the form of a stick or a stick. Because of their shape, it is often difficult to get the desired amount of explosives into the borehole. To counter this difficulty, it is common practice in the field to cut open the dynamite cartridges and use the explosive

4 <»758/128

Pressing or tamping the fabric into the borehole after it has been inserted. This breaks the bars and the explosive is pressed into contact with the wall of the hole to the greatest possible extent To achieve packing density in the hole. Pushing in or pounding is a time consuming and in dangerous measure, as many explosives are quite or somewhat sensitive to shock.

In order to obviate the above-mentioned difficulties, a purpose of the invention is to be Creation of a cheap multi-purpose explosive that is cost-effective (amount of per unit cost of explosives removed rock, drilling of boreholes, etc.) as cheap as ammonium nitrate fuel oil explosives is, but at the same time has properties that make it useful for applications for which at the moment Dynamite is used. The invention further aims to provide an explosive that consists of Is composed of components that are not explosives in themselves and are therefore considered to be ordinary Trade items can be shipped and stored. Yet another purpose of the invention is that Creation of an explosive that does not require a sensitive, high-explosive auxiliary charge in which the blast propagates easily in a small diameter borehole and which flows freely so that it usually does not require indenting or pounding. Another purpose of the invention is that Creation of a method of compounding an explosive that can easily be used in the field by the inexperienced Personnel carried out without the use of special, carefully adapted mixing devices can be. Further purposes are set out in the following description and the claims emerged.

The explosive composition according to the invention comprises ammonium nitrate particles obtained from about 25 to about 100% are saturated with a solution (at 100% saturation the particles initially evacuated in a vacuum), which contains a liquid hydrocarbon in admixture with a liquid nitroalkane or a mixture of a liquid hydrocarbon with a liquid Nitroalkane and a solubilizer, e.g. B. contains a ketone, or a ketone per se. Depending on the particular type of ammonium nitrate particles used, the saturation point ranges from about 13 to about 25 percent by weight of the total explosives formulation. In some cases, according to the invention used enough liquid sensitizer to flood the ammonium nitrate particles, d. H. to fill the voids or spaces between the particles in addition to their saturation. Although this has the disadvantage of reducing sensitivity and making the explosive more difficult to detonate To do this, it increases the substance or bulk density of the explosive. This has the advantage that more explosives can be placed in a given volume. It still has an advantage in the case of underwater detonation, as there is an increase in the density of the explosives above that of the surrounding area Water makes the explosives sinkable. In the case of underwater detonation, the explosives are in accordance with of the invention placed in a water-resistant container, preferably in a plastic bag, e.g. made of polyethylene. This prevents the water from coming into contact with the explosive and have an adverse effect on its properties.

The liquid nitroalkane used is a compound or mixture of compounds of the formula R-NO ₂ in which R is a lower alkyl group, e.g. B. a methyl, ethyl, n-propyl or isopropyl group. Compounds falling under this formula are e.g. B. nitromethane, nitroethane, nitropropane and nitrobutane. Nitromethane is a preferred one

ίο Nitroalkane sensitizers since been found is that explosive compositions prepared using this compound according to Invention are more explosive than other explosive compositions according to the invention, which contain higher nitroalkanes.

The liquid nitroalkane of the type defined above is mixed with a liquid hydrocarbon; this can be an aromatic, an aliphatic or an alicyclic compound or a Compound containing combinations of the above groups, e.g. B. in compounds that Contain aralkyl, alkaryl or cycloalkylaryl groups. Typical of such liquid hydrocarbons are benzene, toluene, xylenes (either pure or mixed), hexane, octane, heptane, cycloheptane, Methylcyclohexane and the like. Typical of such liquid hydrocarbons are mixed petroleum products, z. B. gas oils, fuel oils, residual heating oils, natural gasoline, jet fuels, kerosene, ligroin

The only requirement for the liquid hydrocarbon is that, when mixed with a liquid nitroalkane, either with or without a coupling agent of the type mentioned below _; given kind, forms a solution.

Although the invention is not bound to any theory, it can be assumed that the explosive compositions according to the invention are formed by an absorption mechanism in which the liquid sensitizer (a solution of a liquid Nkroalkans, a liquid Hydrocarbon and a solubilizer; a solution of a liquid hydrocarbon and a liquid nitroalkane, or a ketone by itself) from the outer surfaces of the ammonium nitrate particles migrates into their inner parts. The liquid component of the explosive according to the invention is in this way uniform over the entire interior of the solid ammonium nitrate iidia distributed. As a result, the explosives according to the invention are extremely powerful and efficient, easy to detonate and known explosives in which ammonium nitrate with a Fuel oil is mixed, far superior.

So that the liquid sensitizing component of the explosives according to the invention uniformly in the Inside the ammonium nitrate particles is distributed, it is necessary that the liquid sensitizer is present as a homogeneous material. In some cases it is a mixture of a liquid and nitroalkane of a liquid hydrocarbon is a homogeneous solution. For example, form benzene, toluene, hexane and xylenes solutions with liquid nitroalkanes, such as nitromethane. In other cases are however, liquid hydrocarbons and the liquid lower alkane are not in the desired proportions miscible. In this case it is necessary to have a third ingredient in the liquid sensitizer to use that as a solubilizer

5 6

referred to as. The function of the solubilizer was that such particles are superior

is to give the mixture of liquid carbon explosives. However, unequal

Grains or particles that are moderate in hydrogen with the liquid nitroalkane in solution are useful

to bring and thereby a real solution to explosives composition.

that is homogeneous as a whole. Typical solubilizers used in explosives detection have an oxygen balance in the range of compositions according to the invention from about -25 to about +25. If a mixture of can be, solvents such as nitroalkanes in the explosive according to the invention are wise alcohols, ketones, ethers, aromatics, e.g. B. is used, accordingly a sufficient benzene and naphthalene, and mixtures of such a large percentage of an oxygen-rich lower substance. Preferred solubilizers are the orga-alkane, z. B. nitromethane, used to balance acidic ketones, preferably dialkyl low-substance components of the explosive, ketones. It is particularly preferred if the alkyl The explosives according to the invention are grouped lower alkyl groups, z. B. methyl, quem and slightly mixed at the point of use, ethyl, propyl, butyl, amyl and hexyl groups. 15 by pouring the liquid sensitizer of the pre-Typical coupling agents are dimethyl ketone, standing on and through the particulate methyl ethyl ketone, diethyl ketone, diisopropyl ketone, ammonium nitrate. It is preferred to add benzene, diethyl ether, diisopropyl ether, methyl alcohol, sufficient liquid sensitizing agent to substantially saturate the particles, butyl alcohol, methyl isobutyl ketone and the like. This solubilizer can easily be achieved in an amount up to 20 by adding excess about 50 percent by weight of the liquid sensitizing liquid and pouring off the excess, any residual material present. The solder is preferably the solute, but the particles have been soaked in an amount of about 5 for a few minutes or longer. As the amount of liquid absorbed by the portion to about 20% by weight of the total liquid surface is present due to its porosity sensitizing material. 25 is determined, the user needs in the Formu-Furthermore, it has been found that certain ketone lation of the explosive does not weigh components (generally dialkyl ketones) as such for any calculations. It is effective in sensitizing ammonium nitrate particles - rather, doing nothing other than using the liquid sam to add an explosive composition to the sensitizer until the particles form. These explosives are generally not 30 saturated, and then the excess liquid is as cheap as the other explosives according to the pour off. In a typical case, an example invention in which the ammonium nitrate particles have about 11 sensitizers per 6 kg of ammonia, either with a mixture of a nitroalkane nitrate particle, produces an acceptable explosive,
and a liquid hydrocarbon or with For best results, a mixture of a nitroalkane and an explosive composition according to the invention liquid hydrocarbon and a solubilizer should not be sensitized in contact for any extended period of time. The latter blasting can be left to stand with air. If these substances are generally more explosive than they are, a significant amount of the liquid explosive compositions according to the invention sensitizers can vaporize, so that there is a manure in which the sensitizer is only a less effective explosive. To that is too liquid ketone. Typical of such ketones are to avoid, the explosive should be used within a few methyl ethyl ketone, cyclohexanone, ethyl isopropyl hours after mixing or anketone and the like otherwise stored in a vapor-tight container The explosives according to the invention are used in order to evaporate the liquid ammonium nitrate particles used Avoid normal sensitizers.
Articles of commerce as widely used as fertilizers. The liquid sensitizer according to the invention are used. In these particles, the Ammodung suitably contains a dye which colors the nium nitrate in the form of spheroids, as it colors the particle after the sensitizing agent has been mixed with drops or sprays of a supersaturated solution of them. A special er ammonium nitrate produced by a shot or spray dye according to the invention is brilliant tower by a counter-flowing stream of dry oil yellow No. 2625, as it is produced by the National Aniline Air. The individual bead is manufactured by the corporation. As a result of the color of the ammonium nitrate generally being in the size dye, the particles assume the color of the range of about 2000 to about 5000 microns through dye when they are knife with the sensitizer. Although the particles are not completely saturated evenly. This shows everyone are using the material, they are generally spherical in nature, bypassing person that the explosive is ready for use and they are porous with respect to the liquid sensitive and treated as an explosive agent according to the invention. Should be bought in. After the explosive has stood for some time, the ammonium nitrate particles have generally stood so that part of the sensitizer has evaporated over with an anti-caking agent, the yellow dye takes on the draw. The anti-caking agent has little or no effect generally red coloring on the surface of the mixed explosive. This indicates to the persons dealing with the explosive on the effectiveness of the explosives according to the Er material that additional discovery. Accordingly, the invention includes blasting sensitizers needed to restore the explosives where either coated or non-coated particles of ammonium nitrate are used to further illustrate the invention. Preferably, the ammonium nitrate particles are used in the following examples, in which all are relatively uniform in size, since parts and percentages have been found to be based on

are by weight unless otherwise specified.

Example I.

To 84 parts of particulate ammonium nitrate was added 16 parts of a liquid sensitizer added, the 5.8 percent by volume methyl ethyl ketone, 9.8 percent by volume acetone and 84.4 percent by volume comprised a mixture consisting of 30 percent by volume gasoline and 70 percent by volume nitromethane.

Column propagation and plate buckling

against a 20 mg sample of the explosive. The results obtained are given by the minimum height, at which the explosive detonates in 100% of the tests, the minimum height at which the explosive will be detonated detonated at 50% of the tests, and the maximum height at which the explosive is detonated at 0% of the tests detonated, stated. The explosives did not detonate at heights up to 100 cm with the 2 kg weight; this was the upper limit of the calibration for the sensitivity apparatus of the Bureau of Mines.

Example II

To 84 parts of particulate ammonium nitrate was added 16 parts of a liquid sensitizer added, which consists of 5.8 percent by volume methyl ethyl ketone, 9.8 percent by volume acetone and 84.4 percent by volume consisted of a mixture containing 70 volume

A 305 mm long, spiral fabricated cardboard tube with an inside diameter of approximately 51 mm and a wall thickness of about 3.2 mm was filled with the explosive. This was followed by a electric detonator No. 8 inserted into the head of the explosive column and the material used for

Detonated. During the detonation, one percent of nitromethane and 30 percent of one by volume exploded the entire column and tube was contained in its low-boiling aromatic material (collected Blown away length. During this test, drifted by the Humble Oil & Refining Co. as rested the cardboard tube on a 25 mm thick aluminum »Aromatic HB«; this includes the distillation minium plate, the back with about 102 mm steel residue product from Lousiana - crude oil). Of the was supported. During the detonation it was found 25 explosives then underwent various tests that a dent with a maximum depth of 3.68 mm, as described in Example I, is subjected.

It completely detonated in the 5 cm column in the propagation test, and a sample weighing about 454 g generated a pressure of 735 kg / cm ² in the underwater explosion test. The explosive did not detonate at a height of 100 cm (the

was made into the plate.

Fabric or bulk density

A small sample of the explosive was placed in a graduated cylinder and weighed to determine its bulk density. The bulk density was 0.891 g / cm ³ .

Underwater pressure test

Limit of calibration) with the Bureau of Mines shock sensitivity apparatus.

Example III

To 84 parts of particulate ammonium nitrate. A sample of about 454 g of the explosive was added to 16 parts of acetone to give an explosive placed in a polyethylene bag of cylindrical shape having a consistency or bulk density of. The bag had a diameter of 40 0.862 g / cm ³ . A sample was made into a 305 mm long by 76 mm and a length of 127 mm. After inserting a steel tube that had a wall thickness of filling the explosive into the bag, a deto was 6.35 mm and an inner diameter of 50.8 mm nator (Dupont E-83), which had a base charge of. The bottom of the tube was closed-tapered - it contained 13.5 g of pentaerythritol tetranitrate (PETN), about sen, and the explosive was placed in the middle of the explosive charge with an electric, and 45 detonator No. 8, which was at one point on the charge was placed in a cylindrical tank on a longitudinal axis of the pipe in the head of the explosive, which had a diameter of about 6.1 m, was detonated. It was made and was filled with water. About 102 mm from that found that the explosives completely exploded. Wall of the tank was removed a transformer.

Arranged at a point about 1.83 m below the turn of cyclohexanone instead of acetone The resulting explosive composition detonated halfway through the water level and about 1.22 m from the bottom of the tank. The charge was matched entirely in the steel tube of 50.8 mm inside Depth as the transmitter and about 1.83 m in diameter, and it had a length of fabric or sehütte the main diameter of the tank from the density of 0.862 g / cm ». There were more explosive devices remotely located. The transmitter was 55 substances using other ketones than connected to an oscilloscope, which is used to read the liquid sensitizer in the manner of the example III manufactured. For example, explosives have been formed that contain 84 weight percent ammonium nitrate particles and 16 percent by weight of methyl i-60 soamyl ketone, methyl isobutyl ketone or methyl ethyl ketone contained. These explosives all had one

of the pressure generated in the tank was calibrated. When the cargo exploded, a peak underwater pressure of 378 kg / cm ^{2 was} recorded.

Shock sensitivity (Bureau of Mines)

A 20 mg sample of the explosive was taken using the standard shock sensitivity apparatus of the

Fabric or bulk density of 0.891 g / cm ³ .

When example I is repeated using a homogeneous solution of a liquid

Bureau of Mines according to the general definition 65 hydrocarbons, for example benzene or hexane, and in US Bureau of Mines Bulletin 346 (1931) nitromethane (without a solubilizer) were tested. The test involves dropping one
2 kg weight over a measured distance

get good explosives. Generally about 12 to 24% of the liquid hydrocarbon is with the

liquid nitroalkane present to form the homogeneous sensitizer.

If Example II is repeated using other liquid hydrocarbons, for example Fuel oil, kerosene, hexane, heptane, toluene, xylenes (pure or mixed) or isooctane obtained similar explosives. When using other solubilizers such as diisopropyl ether, Butyl alcohol, diethyl ether and dibutyl ketone, instead of the methyl ethyl ketone according to the example II good explosives are also obtained.

In still other embodiments of the invention, if the percentage of liquid Sensitizer changed from 25 to 100% of the saturation level for the ammonium nitrate particles will also get good explosives.

Preferably the viscosity of the liquid sensitizer is less than about 125 Saybolt Universal seconds (SUS) at about 38 ° C.

As set out in the above description, the explosives according to the invention fulfill generally have a dual function in that they can be used in place of dynamite and yet at the same time cheaper than dynamite on a weight-to-weight basis and from a cost-efficiency standpoint are cheaper than ammonium nitrate-fuel oil mixtures. Furthermore, the explosives easily and conveniently formed in the field according to the invention and they are composed of components, which are not explosives in themselves. Accordingly, the ingredients that make up the Explosives according to the invention result, shipped and stored as ordinary articles of commerce will. This results in the explosives according to the invention to be shipped both cheaply and safely and are to be stored.

In addition to their cheapness and safety, the explosives according to the invention are very powerful or energetic. So it has been observed in field tests that the explosives according to the Invention are powerful or more effective than dynamite. This fact makes them in connection with their ability to flow freely and their ability to detonate in small diameter boreholes, excellent for a number of applications where dynamite is currently used will.

The explosives according to the invention cannot directly replace dynamite, as can some dynamites can be ignited under water or in nasal boreholes. In contrast, the Explosives according to the invention rendered ineffective when they come into contact with water. However, this is not a serious problem. When using the explosives according to the invention is desired in areas of application where they would come into contact with water, you can they are placed in a water-repellent container, e.g. B. in a polyethylene bag like him was used in the underwater explosion test.

The invention is limited to the explosive compositions identified in detail above and the manner of their manufacture is limited than that of the following claims emerges.

Claims (3)

Patent claims: 1. From particulate! Ammonium nitrate and a liquid organic sensitizer existing explosive mixture, characterized in that the sensitizing agent a mixture of a conventional liquid hydrocarbon fuel with a mononitroalkane, especially nitromethane, which is liquid at room temperature, if appropriate with the addition of a solubilizer, or a liquid ketone and that the oxygen balance of the explosive mixture is in the range of about -25 to +25. 2. explosive mixture according to claim 1, characterized in that the ammonium nitrate particles to about 25 to about 100% is saturated with the homogeneous liquid sensitizer. 3. blasting mixture according to claim 1 or 2, characterized in that the solubilizer is a liquid ketone or dialkyl ketone, especially methyl ethyl ketone, a mixture of methyl ethyl ketone and acetone or a mixture is made up of benzene, naphthalene and acetone. Considered publications:
German publication no.1081812,
1077589. 409 758/128 12.64 © Bundesdruckerei Berlin