DE1900146A1 - Explosive processes, compound charges and explosive additional charges for it - Google Patents

Description

Patent attorney »

Dr. D. Thomsen

Dipl.-Ing. H. Tiedtke _t -

Dlpl.-Chem. G. Bühling. ^ Jan 4th, 1969

Munich 2, Tal 33 Be sch reib ung ιοηΠΊ / β

Telephone 0811/22 6894 ~~ "~« ^. *. - ' ^U

to the patent application of

Imperial Chemical Industries Limited, London, S.W.1.,

concerning:

Blasting process, compound charge and explosive additional charge for it

The priority of filing in Great Britain from 1/1/1968

is used

The invention relates to an explosive process, a compound charge for blasting work and an explosive additional charge for the Procedure and the compound charge.

It is now common practice in large-scale blasting operations to use explosives based on ammonium nitrate that are negligibly insensitive. Such explosives include, for example, ammonium nitrate explosives that are made sensitive with nitroglycerin or trinitrotoluene, ie the so-called ANFO explosives, which consist of mixtures of ammonium nitrate (NA) and fuel oil ( ^M FO) as well as explosive sludge masses of ammonium nitrate and water. In order to increase the explosive power of such haters and their sensitivity to initiation against waves of explosion, it is customary to add powdered metal or metalloid, e.g. aluminum, magnesium, iron, silicon or boron, to the haters Impact or friction or chemical attacks on the sensitizing components In order to increase the handling safety of such sensitive explosive mixtures, it would be desirable to keep these sensitizing components separated from the rest of the explosive masses for as long as possible.

It has now been found that the explosive power of an explosive device can be increased by using the main charge a column of powdered metal or metalloid into the Blasthole is introduced, this column giving a explosive charge that has a higher detonation speed than has the bulk and is present in sufficient quantity

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is to disperse the powdered metal or metalloid, and that the two charges are detonated. In the explosion, the powdery metal or metalloid becomes at least partially dispersed into the gases produced after the detonation and oxidized there, whereby the heat of the explosion is dissipated and increase the gas pressure accordingly.

According to one feature of the invention, there is therefore a blasting method proposed that consists of a main explosive column, a column of powdered metal or metalloid and a explosive auxiliary charge with a higher detonation force windig == ability to be introduced into a blast hole as the main charge, the auxiliary charge being present in such an amount that it is able to disperse the powdered metal or metalloid that surrounds the auxiliary charge and contacts the main charge, and that the two charges are detonated. These explosive charges can be detonated in a known manner, e.g. by final ignition and / or intermediate ignition.

According to another feature of the invention, a composite charge for explosive work is created, which consists of a main explosive column, a column made of powdered metal in contact with it or metalloid and one in the column of powdery Metal or metalloid explosive auxiliary charge with a higher detonation speed than the main charge consists, wherein the auxiliary charge is present in such an amount that it the column of powdery metal or metalloid able to disperse.

The invention also relates to an explosive additional charge for the blasting method and the compound charge according to the invention. This additional charge consists of an encased column powdery metal or metalloid that surrounds a charge that has a high detonation speed and that powdery © metal or metalloid is able to disperse. The envelope of the powdery metal or metalloid can sweokoaeeig through a container, e.g. made of plastic film Polyethylene or polyvinyl chloride happen.

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The advantages of Erfinamag Sassen with every type of explosives achieve, however, the greatest effect will be proportionate insensitive explosives, e.g. AHFO explosives or explosive chlama masses.

Preferably the main explosive column is as one around the column of powder! Metal or metalloid arranged ring column educated. It is also preferred that the auxiliary cargo has the forest of a long cargo that is over its length from the powdery metal or metalloid is surrounded. In the preferred arrangement there are the explosive charges and the column from powdery! Metal or metalloid coaxial with one another.

A particularly useful auxiliary charge consists of one Detonation fuse, which can also be used to load the main cargo. If desired, additional Initial charges at the end or at intermediate points along the Detonating cord can be attached. A fuse with about 65-325 gr (* »about 3.8-19.2 g) pentrite per meter is suitable.

A preferred blasting method according to the invention consists in placing a piece of detonation fuse in a blast hole is introduced in the axial direction, with this fuse over at least one (part of its length you a column powdered metal or metalloid, which is contained in a thin-walled tubular container, is surrounded that a Charge made of AHFO ~ explosives or an explosive sludge mass is inserted into the blast hole around the powdered metal or metalloid, and that the detonation fuse and detonate the explosive charge.

When the detonation fuse is surrounded by pulverulent metal or metalloid, there is the further advantage that an insensitive explosive main charge in front of a phlegmatic eierung is protected by compression, which upon detonation of an immediately adjacent detonation fuse that of the initiation Main charge insufficient, would have occurred when such a fuse is used

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to detonate one down in the blast hole Ignition means below a relatively insensitive Lead main charge.

Bas powdery metal or metalloid can e.g. be made of aluminum, Magnesium, iron, silicon or boron consist. It can be purpose » be massive in dry form or in suspension in a liquid, e.g. water, with a suspension being lighter can be poured into plastic pipes and apparently produces a better blasting performance when using an AUFO explosive. The suspension fluid can advantageously be thickened by adding a thickening agent such as guar gum, hayseed meal or a water-soluble cellulose ether in the Liquid is dissolved.

The preferred metal powder consists of granular aluminum with such a grain size that essentially the The whole thing can go through a 10 mesh grid and at least 50% on a 30 mesh grid (each British Norm) are withheld. ■; ·.

The invention will now be described purely by way of example on the basis of a preferred embodiment shown in the drawing explained in more detail. It shows

Figure 1 schematically shows a longitudinal section through one in one Compound charge arranged vertical blast hole,

FIG. 2 shows a cross section through the charged blast hole along the line II-II in FIG.

The blast hole 10 contains at the bottom an initial charge 11 made of Brisaneate and a centrally arranged explosive auxiliary charge 12 made of a piece of commercially available detonation fuse 12 ("Cordtex" ~ e.Vz.) as well as a surrounding, in a polyethylene tube 14 contained column 13 made of powdered * metal or metalloid. The fuse 12 is on the one hand old of the charge 11 and on the other hand - from the blast hole 10 outstanding - with a detonator 15, with which the

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Detonated fuse can be connected. One Main charge 16 of powdered explosive is loaded by putting it in the blast hole around the polyethylene tube is poured around and then covered with trim 17.

When the detonator 15 is ignited, the fuse 12, the Initalladimg 11 and the main charge 16 detonated, with the powdery metal or metalloid being dispersed and is oxidized in the gases evolved during the detonation.

The following examples serve for further explanation the execution of the invention, with all identification information on are based on weight.

example 1

In a limestone quarry bank, 10 explosive charges were detonated in blast holes with a diameter of 102 mm and a depth of 18.3 m, with the blast holes at a distance of 5.65 m with a default of 3 »65 m. On one side of the bank, five adjacent blast holes were loaded according to the invention in the manner shown. The initial charge 11 in each blast hole was an 18 kg base charge of a gelatinous hypoglycerin explosive (Togel "- β.Wb. Imperial Chemical Industries Limited), and this charge filled the bottom three meters of the blast hole. The detonation fuse 12 consisted of" Cordtes ^ fuse with about 9.6 g of pentrite per meter. As powdery material 13, granular aluminum powder was used which had such a grain size that essentially the whole thing could pass through a 16-mesh grid and 60% was retained on a 30-mesh mesh (both British standard). This powder was contained in a polyethylene tube with a diameter of 19 KB at a charge density of 0.342 kg / a. The. Main charge 16 consisted of 54.43 kg of an ANFO mixture of 94% ABKoniuanitrat and 6% diesel oil and was poured into the blast hole around the initial charge and the aluminum charge 13 to a height of about 9 ". The blast hole was plugged at the top of a quarry gravel 17. the

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other five neighboring blast holes were similarly charged, with the difference that the / xlusniniumpul loading 15 and the Detonation fuse 12 were omitted and the initial » charge has been electrically ignited.

When detonated, the charges from the first five blast holes resulted in better stone rubble and one better stone throw than the charges of the other five blast holes

Example 2

10 explosive charges were made according to the method according to the invention produced and ignited, as in Example 1 »with. the Deviation that the main charge 16 consisted of a sludge mass of 87% ammonium nitrate, 12% water and 1% guar gum and was not sensitive enough to propagate a detonation in a blast hole 102 mm in diameter.

The blast resulted in better stone breaking and stone throwing than a similar blast, in which the aluminum powder was omitted.

Bapiel 3

In this example the same detonation » Detonating cord 12 ("Cordtex") and surrounding column made of aluminum powder 15 as in Example 1 with the difference that they were composed of smaller units. Each unit consisted of an approximately 1.8 m long piece of "Gordtex" that was surrounded over 1.36 m of aluminum powder in a Polyethylene tube 14 was included. The latter was sealed by tying the qiden tightly around the fuse. 12 units were linked together by tying the free bathing cord and tying the knot with Tape were covered.

When blasting according to this example were 10! Cargoes in a quarry bank in 102 mm wide and about 21 m deep blast holes having a respective distance of about 4.5 a default of 5.4 m had old m ignited. The explosive

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Punch were loaded vegetables of the drawing, with the initial = Charge from a 4.5 kg cartridge of "Togel ^ Explosivstoff duration. The assembled units made of aluminum powder and "Cordtex * ~ Zündsehnur extended over a height of 18.3 m from the bottom of the hole, and another with the fuse of the A piece of fuse attached to the top unit protruded from the top of the blast hole. The main load 16 consisted of about 109 kg the ANFO mixture according to example 1. The top 3 α each Blast holes were filled with quarry 17 gravel.

The detonation of the explosive charges resulted in excellent explosive effects. The shattering was superior to the shattering, which was achievable without .Aluminiumpulver, and was comparable with the smashing that with blast holes with a respective distance of 3 a and a default of 3. η without Application of aluminum powder could be achieved.

Example 4

In this example, the same columns 13 made of aluminum powder were used as in Example 3, with the difference that six 1.36 m long aluminum powder units surrounded a single piece of "Cordtex" fuse. A 31 * 75 mza wide and 102 mm long cartridge made of gelatinous nitroglycerine explosive "Polar Aamon Gelignite" was taped on each one Place the "Cordtex" fuse between the aluminum powder » overturned fastened to create a holy place ignition.

14 explosive charges were placed in a quarry bank in 102 mm wide and 12.5 »deep blast holes with a distance of 3 m and a specification of 3 to. ignited. On one side of the bank, 7 adjacent blast holes were loaded according to the invention according to the drawing. In each blast hole there was an initial charge 11 consisting of a 4.5 kg cartridge of "Togel" explosive and the main charge 16 consisted of about 54.4 kg of an AHFO mixture according to Example 1, which the blast hole up to a height of 10 m filled out. The top 2.5 m of each blast hole was plugged with quarry gravel 17. The other 7! ”Ocher were loaded similarly, with the difference that that the aluminum powder has been omitted.

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When the charges were detonated, there were shattering and Insertion on the side of the bench with the aluminum powder is better than on the other side.

Example 5

The explosive test according to Example 1 was repeated with the Deviation that the column 15 from aluminum powder in the form of an extrudable aqueous suspension of 40 parts of aluminum in suspension in 60 parts Had water with 2 # guar gum.

When the explosive charges were ignited, the charges according to the invention were better smashed and stones were thrown than from the charges in which the aluminum was missing.

Example 6

The explosion test according to Example 1 was repeated with the Deviation that instead of aluminum »magnesium powder was used. The results were the same as in Example 1.

Example 7

The explosive test according to Example ^ was repeated with the Deviation that powdered silicon was used instead of aluminum powder. The results were those according to Example 1 same.

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Claims (24)

Claims 1. Blasting method, characterized in that aaes a main explosive column, a column of powder forinigoni Hetall or Metalloid and an explosive auxiliary charge with a higher one Detonation velocity as the main charge can be introduced into a blast hole, with the auxiliary charge in such a Amount is present that it is able to disperse the powdery metal or metalloid that surrounds the auxiliary charge and touches the main charge and detonates the two charges * 2. The method according to claim 1, characterized in that the Main charge of an ANFO explosive or explosive sludge consists. 3. The method according to claim 1 or 2, characterized in that the main explosive charge as a ring column around the powdery one Hetall or metalloid is formed. 4. Method according to one of Claims 1 to 5, characterized in that the auxiliary charge is a long explosive charge. 5. Method according to one of claims 1 to 4-, characterized in that the auxiliary charge consists of detonation fuse consists. 6. The method according to any one of claims 1 to 5, characterized in that « shows that the explosive charges and the column of powdered metal or metalloid in the blast hole are coaxial with one another are arranged. 7. Method according to one of Claims 1 to 6, characterized in that that the powdery metal or metalloid consists of aluminum, magnesium, iron, silicon or boron. 8. The method according to claim 1, characterized in that a Stuck detonation fuse is introduced into a blast hole in the axial direction, this fuse over at least 909839/0902 - 10 - ίο - a rope of their length from a column piVj / Metal or metalloid that comes in a thin-walled tubular shape Container is contained, is surrounded, ßaae a charge from ANFO ^ Esplosive material or an explosive sludge mass into the Blast hole around the powdery metal "or metalloid is introduced, and that the detonation fuse and the explosive charge are detonated » 9. The method according to any one of claims 1 to 8, characterized in that the column of powder! Metal or Metalloid is contained in a tubular plastic film. 10. The method according to claim 9 »characterized in that the Plastic film is made of polyethylene or polyvinyl chloride « 11. Compound charge for explosive work according to the procedure according to Claim 1, characterized in that it consists of a main detonation column, one of these touching column of powdered metal or metalloid and one in the column of powdered Metal or metalloid located escplosive auxiliary charge with a higher detonation velocity than the main charge, the auxiliary charge being present in such an amount is that they have the column made of powdered metal or Metalloid is able to disperse. 12. composite charge according to claim 11, characterized in that the powdered metal or metalloid made of aluminum, Magnesium, iron, silicon or boron. 13. composite jadung according to claim 11 or 12, characterized in that that the powdered metal or metalloid is contained in a thin-walled tubular container. 14, - composite charge according to claim 15 »characterized in that the container consists of a tubular plastic film. 15- composite charge according to claim 14-, characterized in that the tubular plastic film made of polyethylene or polyvinyl chloride consists. 909839/0902 BAD ORIGINAL " ¹¹ ~ 16. Compound charge according to one of claims 11 to 15 »thereby indicated that the auxiliary charge is a long charge. 17. composite charge according to claim 16, characterized in that the auxiliary charge consists of detonation fuse. 18. Compound charge according to one of claims 11 to 17 * thereby marked that the main explosive charge from an ÄHFO «~ There is an explosive substance or an explosive sludge lake. 19. Yqbundladen according to one of claims 11 to 18, characterized characterized in that the main charge is formed as a ring column around the powdered metal or metalloid. 20. composite charge according to claim 19 «characterized in that the explosive charges and the column of powder! metal or metalloid are arranged coaxially to one another. 21. Explosive additional charge for a blasting process according to claim or a composite charge according to claim 11, characterized in that it consists of an enveloped column of powdery Metal or metalloid which surrounds a charge which has a high detonation speed and which is in powder form « Able to scatter metal or metalloid. 22. Explosive additional charge according to claim 21, characterized in that that the powdery metal or I:> talloid in a container is wrapped in a plastic film. 23 · Explosive additional charge according to claim 22, characterized in that that the container is made of polyethylene or polyvinyl chloride. 24. Explosive additional charge according to claim 21 to 23, characterized in that the charge consists of detonation fuse. 5 · Explosive additional charge according to one of claims 21 to 24, characterized in that the powdered metal or metalloid consists of aluminum, magnesium, iron, silicon or boron, 909839/0902 Blank page