DE945011C - Ammonium nitrate weather explosive powder - Google Patents

Description

The invention relates to an improvement in the production of ammonium nitrate weather explosive powders, such as those used in firedamp fuel or dusty mines and where the explosive sensitizing component consists of trinitrotoluene and the delineating component of sodium chloride.

As an example of such an ammonium nitrate safety explosive, Douglas powder may be mentioned by grinding trinitrotoluene, ammonium nitrate and sodium chloride, essentially in the Weight ratios of 15: 69: 16 and which has a performance equivalent of 65% that of blasting gelatin, as in the ballistic one Mortar was found, and that corresponds to an English home office gallery attempt at the charge in uncompacted form from a steel cannon or a steel cannon from a borehole of 1193.8 mm is shot down in a room with a mixture of 9 percent by volume methane in the Contains air. The detonation speed of Douglas powder is about 3000 m per second. the Improvement of the security properties through modern explosives and in particular encased nitroglycerin explosives and which have significantly improved security properties in recent years However, this led to attempts being made to find safer explosives based on dinitrotoluene and ammonium nitrate by increasing the sodium chloride content thereof. As a result of resulting in a reduction in the sensitivity to the progress of the decomposition however, do not make it appear expedient to increase the sodium chloride content above about 25%,

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as is the case with the Gathurst powder explosive, which contains 15% dinitrotoluene, 60% ammonium nitrate and Contains 25% sodium chloride and a performance equivalent of 53% that of blasting gelatin and has a detonation speed of about 2800 meters per second. To get around this difficulty, enveloped charges made of explosives were introduced, which ammonium nitrate, trinitrotoluene and contain sodium chloride and those on its longitudinal surface between the casing and a outer coating were provided with a layer of sodium bicarbonate. That layer of sodium bicarbonate serves to prevent the bad weather atmosphere from igniting, and furthermore that is caused by this charge developed to diminish powers without significantly affecting their reproductive sensitivity being affected. However, such encased explosives have the disadvantage that for their use Boreholes with a larger diameter are required and the production of such encased Charges is awkward because the wrapping material must be prevented from touching the end surfaces of the cargoes, and therefore special wrapping is necessary, apart from z5 that by damaging this envelope an impairment the weather protection of such explosive charges can occur.

The manufacture of ammonium nitrate explosives in which the sensitizing component is made up Trinitrotoluene is different from the manufacture of those that are sensitive making constituent consists of a liquid explosive nitric acid ester, inasmuch as the For the former, a grinding treatment is necessary in order to obtain an intimate mixture of the trinitrotoluene and the ammonium nitrate cause the mixture to become sensitive to a detonator while the Introduction of these components in explosives containing a liquid explosive nitric acid ester, using only a gentle mechanical mixing action and without exerting anything substantial Printing may be carried out.

The invention now relates to an ammonium nitrate weather explosive powder, which contains trinitrotoluene and sodium chloride and where the ammonium nitrate and trinitrotoluene content from fine, intimate Mixture consists of particles present. The novelty of the invention is seen in the fact that the amount of the sodium chloride in the explosive powder makes up at least 35 percent by weight of the explosive powder, the whole amount of sodium chloride passing through a sieve with a mesh size of 1.003 mm and at least 10 percent by weight of the sodium chloride of the explosive from a sieve 0.1245 mm mesh size and at least 10 percent by weight of the sodium chloride of the explosive through a sieve with a mesh size of 0.1245 mm.

'Preferably, in a known explosive composition of 35 to 6o ° / ₀ sodium chloride 5 to I2 ° / _O trinitrotoluene and 65 and 28% ammonium nitrate no more than 25% of the weight of the explosive powder of sodium chloride of a fineness that it is a by Sieve with a mesh size of 0.1245 mm passes through it.

The preparation of the explosive powder of the specified type takes place in such a way that the trinitrotoluene and ammonium nitrate are ground together in a manner known per se, after which sodium chloride is then gently mixed into the ground mixture thus produced, at least a portion of which is one of a sieve Mesh size of 0.1245 ^{mm is} retained. In this case, part of the sodium chloride of the finished explosive powder, which is so fine that it passes through a sieve with a mesh size of 0.1245 mm, is preferably incorporated in some stage of the grinding of the mixture of trinitrotoluene and ammonium nitrate during grinding, and then the part of sodium chloride is mixed into the finished explosive powder, which is too coarse to pass through a sieve with a mesh size of 0.1245 mm. Heretofore, in the manufacture of ammonium nitrate-trinitrotoluene explosives which contain sodium chloride or other components, these have all been ground together and mixed in this way. It has now been found that the specified fine distribution of the sodium chloride particles, which occurs as a result of attrition during the grinding treatment, the insensitizing effect of sodium chloride on the explosive containing it is substantially increased. This is particularly the case when the explosives have such a high sodium chloride content as is the case with the subject matter of the invention. With this new explosive composition, the safety of the explosive composition is significantly increased due to the presence of the large proportion of sodium chloride. Such explosives can only be ignited if the sodium chloride is used in the specified grain size.

It should be pointed out that the described relationships only exist in the case of explosives made from Ammonium nitrate-trinitrotoluene and a sodium chloride additive exist, in which a grinding treatment is required for mixing. For explosives which contain nitroglycerin and which do not are milled, these ratios do not occur because a reduction in the particle size of the added Sodium chloride does not enter as a result of grinding.

Explosives have been proposed which include ammonium nitrate-trinitrotoluene and sodium chloride of a relatively large particle size. However, such an explosive possesses low density, and it is necessary to apply the raw materials in granular form. if the proportion of sodium chloride in such an explosive is increased to values as in the present one Proposal are used, a safe ignitability of the explosive would be in this case Question to be asked.

It is used in weather security explosives that are made from a mixture of trinitrotoluene and ammonium nitrate and sodium chloride exist, it is important that they do not give off any toxic fumes when ignited.

wrap and that these explosive compositions have a calculated oxygen balance between -0.5 and + 3g per 100 g of the composition should.

It is furthermore often desirable to add up to 4.5% fiber components to such compositions in order to to reduce the bulk density of the composition and to improve the oxygen balance in explosives to obtain, m which the trinitrotoluene component is reduced to give better security.

From the given oxygen equilibrium of - "0.5 to + 3 g of oxygen per 100 g of the explosive it can be concluded that the percentage by weight of trinitrotoluene is between 5 and 15.5 and the Percentage by weight of ammonium nitrate should be between 40 and 60 (if there is no other Oxygen-evolving salt located in the mass), and in terms of the total amount of flame-extinguishing Components of an encased explosive that does not contain nitroglycerin but trinitrotoluene and Contains ammonium nitrate, it can be assumed that the sodium chloride content for at least the the same degree of weather security should be at least 30%.

It has also been found experimentally that ammonium nitrate explosives of the type mentioned, the contain at least 30% sodium chloride, a detonation speed of at least 2000 m / sec.

included if there is to be a guarantee that the detonation will propagate in a 1 m long series of charges of these compositions takes place, which have a diameter of 31.7 mm own.

It was also found experimentally that an explosive which only contains ammonium nitrate, trinitrotoluene and sodium chloride and which is equivalent to a coated Douglas powder in terms of its weather safety, so that an amount of 113.4 S of this explosive is detonated when it is freely suspended in a test room , in which does not ignite an air mixture containing 9% methane by volume, should contain at least 35% sodium chloride.

The object of the present invention is in particular that ammonium nitrate. Explosives of the type containing trinitrotoluene are proposed and which contain at least 35% sodium chloride contain, these having a detonation speed of at least 2300 m / sec. and not more than 2900 m / sec. exhibit.

These ammonium nitrate explosives, which have a detonation speed of less than 2300 m / sec. are less sensitive than is generally desired for purposes of use is, while those who have a detonation speed of over 2900 m / sec. own in show the suspended room experiment an unfavorable effect.

For example, with a mixture containing 35% sodium chloride, it is desirable that at least 10% sodium chloride, calculated on the mass of explosive, be retained by this screen, and with the explosive containing 40% sodium chloride, it is desirable that at least 17% sodium chloride be retained by this sieve , 5 ⁰ J ₀ sodium chloride are retained by this sieve.

It should be noted that when, for example, sodium nitrate contained in the explosive, less than 35 _^0/0 sodium chloride may already provide the desired level of security. ·

Preferably, the grinding of the sodium chloride is carried out so far that all of the sodium chloride passes through a sieve with a mesh size of 1 mm in order to separate the sodium chloride prevent ζμ on the transport.

If the amount of ground with the trinitrotoluene and the ammonium nitrate or otherwise sodium chloride introduced into the finished explosives mixture is limited to such a fine distribution that it will pass through a 0.1245 mm mesh screen, not more than 25% by weight of the finished explosives mixture, explosives can be obtained that contain 30 to 60% Sodium chloride and contain from 5 to 12% trinitrotoluene, with the remainder being mainly ammonium nitrate consists. If necessary, an oxidizing salt of a metal, for example sodium nitrate, be present and, if desired, non-explosive solid components can also be in small amounts Amounts are added to maintain a satisfactory oxygen balance. These explosives have satisfactory ignition properties and reproductive sensitivity, and they exhibit better ones Weatherproof properties higher than any of the known uncoated ammonium nitrate-trinitrotoluene-sodium chloride explosives.

Although all of the sodium chloride present in the explosives mixture is in one The grinding condition may be too coarse to pass through a sieve with a mesh size of 0.1245 mm, it is preferred that at least 10% of the sodium chloride be in this composition should have a finer degree of grinding, as explosives when firing freely suspended in a test room according to the invention containing this amount of fine sodium chloride show better results as. those that do not contain any fine components and these in the same way in an attempt, where firing from a cannon occurs, show satisfactory results.

A method of making the new ammonium nitrate safety explosive powder according to the invention consists in that trinitrotoluene and ammonium nitrate with one another in a manner known per se are ground, and then sodium chloride is gently mixed into the mixed mixture thus obtained at least part of which is retained by a sieve with a mesh size of 0.1245 mm will.

When carrying out the method for producing such explosives according to the invention, the Trinitrotoluene and ammonium nitrate are first ground in a manner known per se, for example in a pan mill, in the absence of sodium chloride. Then the sodium chloride that wholly or partially has such a grain that

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it does not pass through a sieve with a mesh size of 0.1245 mm, easily with the ground mixture mixed without further milling, for example by adding the mixture to an atlas mixer being, in this way the sodium chloride of the specified grain size in the type of Mixture is incorporated, as is the case with the mixing of explosive components, the liquid contain explosive nitric acid esters. But it can also be proceeded in such a way that, if a pan mill for grinding the ammonium nitrate Jind .trinitrotoluene is used, the table salt is incorporated into the mass solely by working the scoop after the rollers have been lifted out of the mix. If it is desired that a certain amount of the Sodium chloride is so finely divided in the final explosive that it can pass through a sieve a mesh size of 0.1245 mm passes through it, and this portion of the sodium chloride in a

ao dear degree of fineness with which trinitrotoluene and ammonium nitrate is ground in the usual way, the proportion of sodium chloride that is too coarse to pass through a sieve 'with a mesh size of 0.1245 mm

going through it, then lightly mixed in without grinding in bulk. Another method is that the ammonium nitrate and trinitrotoluene are ground with or without some sodium chloride in a known manner and then an amount of sodium chloride is added to the mill, which has a grain size so that it can be passed through a sieve with a mesh size of 0.1245 mm is retained, whereupon the grinding treatment for a short time is continued long, until the mixing treatment ended, so that the major portion of the sodium chloride in the resulting composition has a Kärnungsgröße so that it on a screen of a laschen- ¹ wide by 0, 1245 mm is retained. -

The spiengstoffe made according to the invention retain their sensitivity, i. H. their sprouting properties over a period of at least 6 months.

The following tables give the test results back and allow the properties of λ recognize on explosive compositions consisting of sodium chloride mixed with trinitrotoluene and ammonium nitrate in a ratio voni8,2: recognize 8i, 8 ° / _0th

Tabel

power Grain size of NaCl Detonation safety (V ₀ explos held back by sieve speed
(m / sec.) NaCl gelatin)
experimental 0.1245 ^mm salary
% certainly Passage through sieve
1.003 ^mm finely ground *)
(Parts) held back by sieve - 0.252 mm 2800 - 53 (Parts) 25th 3500 - 25th - - 2500 - 47 25th 30th 2600 - 30th - 28 27ΟΟ - 2 25th 2800 . - 5 20th 29ΟΟ - IO 15th 3100 - 15th IO 3200 - 20th 5 33ΟΟ. + ' 25th - 2100 + 43 3D 35 2200 + 35 30th 23ΟΟ + 5. 25th 26ΟΟ + IO 25th 29ΟΟ - 20th 5 3IOO 30th - no transmission 39 35 40 the detonation + 40 - 2000 + 30th 2200 + IO 25th 2400 "... + 15th 20th 3700. + 20th IO 2900 + 30th - 2000 + 29 40 25th 2400 + " 50 25th IO 2700 + 40 - 2000 + 20th 50 20 ' 2400 60 40 - 6O

*) Passage through sieve 0.1245 mm

A plus sign indicates that experiments in a gas chamber (hung and shot from the cannon) positive results with regard to safety and a minus sign indicates that the gas test does not meet the requirements in terms of security.

Tabel

NaCl content

power
(Vo explosive gelatine)
experimental
certainly

Grain size of the NaCl passage through sieve

0.252 mm

held back by sieve

0.1245 mm

finely ground *)
(Teüe)

Detoiiations

speed

(m / sec.)

Gas safety

^30th

35

40

47

43

39

30th

10
15th
17.5
28

35

20th
40

*) Passage through sieve 0.1245 mm

The invention is illustrated in the following examples without being restricted thereto. The parts and percentages relate to weights, unless otherwise noted.

example 1

In a pan mill set up for grinding treatments, a total of 11.9 parts of flaky trinitrotoluene and 53.1 parts of ammonium nitrate are ground, which has a fine deposit of the sodium salt of trisulfonated p-rosaniline in an amount of 0.1 percent by weight on its surface. The grinding treatment extends over 25 minutes, after which time the mixture is ground so finely that it passes through a sieve with a mesh size of 0.104 rm. Further grinding treatment does not improve the sensitivity any further. After the milling treatment, the pan mill is stopped and the wheels are lifted out of the mixture. Then the mixture may be incorporated only by working the blades 35 parts of sodium chloride, which has such a grain size that the whole amount passes through a sieve having a mesh width of 0.252 mm and / pass only 58 ° ₀ sieved through a mesh size of 0.1245 mm .

The resulting explosive has a detonation velocity from 2400 m per second; it can be triggered by a commercially available detonator No. 3 zündea, and in the form of a charge that is 31.75 mm in diameter and 76.2 mm in length, the detonation continues to the next charge of the same composition if * this 25.4 mm from the end of the first is removed. The power is 43% of that of blasting gelatin, and they has a density of 1.15 g / ccm at a pressure of 30

35
25th
20th

17.5
7th

40
20th

2500
3000

2100
2300
2400
2500
2700
2900

no transfer

the detonation

2300

2700

of 1.4 kg / cm ² . If 169.8 g of this explosive is shot down freely suspended in a test room in an air mixture containing 9 percent by volume of methane, it will not be ignited.

An explosive with a similar composition, but containing 35% sodium chloride in finely divided form contains, has a detonation speed of 2100 m per second; he will not let himself be from you Detonate salt fuse No. 3, and in the form of a charge of 31.75 mm in diameter and 76.2 mm 10 » Length the detonation continues on a similar charge, 12.7 mm from the end of the same away. When 141.5 g of this explosive is released suspended in a test room that contains 9 percent by volume methane in the air, so no ignition of this atmosphere takes place.

Example 2

11.5 parts of trinitrotoluene are mixed with 11.5 parts Sodium nitrate was ground for 10 minutes in a pan grinder set up for grinding treatment. 40 parts of ammonium nitrate and 8 parts of sodium chloride are added and the mixture becomes more • Milled for 20 minutes, after which time essentially all of the mixture is fine enough to pass through a 0.104 π ™ sieve. The wheels of the pan mill are then lifted from the mixture, and 29 parts of sodium chloride of such a degree of fineness that the whole amount passes through a sieve with a mesh size of 0.252 mm and from a sieve one Mesh size of 0.1245 mm are retained, the mixture is only retained by the action of Schaufehl incorporated into the pan mill.

The explosive obtained has a detonation speed of 2600 m per second and one

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such sensitivity that it can be ignited by a No. 3 explosive salt fuse, with charges 31.75 mm in diameter and 76.2 mm in length transmitting the detonation when the charges are 25.4 mm apart. The performance of this explosive is derjenigen'von blasting gelatine 41 ° / _0, and the explosive has a density of 1.15 g per cc at a pressure of 1.4 kg / cm ^2. If 141.5 g of this explosive are detonated freely suspended in a test room, an air mixture containing 9 percent by volume of methane will not ignite.

An explosive of similar composition that contains 37% sodium chloride, which is in the mixture is finely ground, has a detonation speed of 2000 m per second; he lets himself do not ignite from a No. 3 detonator, and if charges are 31.75 mm in diameter and 76.2 mm in length are 12.7 mm apart,

so there is no transmission of the detonation. 169.8 g of this explosive ignite freely suspended in a test room, not a 9 percent by volume Air mixture containing methane.

Example 3

11 parts of trinitrotoluene are mixed with 11 parts of sodium nitrate Grind for 10 minutes in the manner described in Example 2. 38 parts of ammonium nitrate are added and the mixture becomes

: Ground 3o for another 20 minutes. The wheels of the mill are then lifted out of the mixture and 40 parts of sodium chloride are added, which is of such a granular size that the whole amount passes through a 0.252 mm mesh screen and is retained by a 0.1245 mm mesh screen . This sodium chloride is only incorporated into the mixture by the action of the blades.
The resulting explosive has a detonation speed of 2700 m per second, it can be detonated by a commercially available No. 3 pop-salt fuse, and when charges 31.75 mm in diameter and 76.2 mm in length are 37.6 mm apart, find a transfer of the detonation took place. The performance of this explosive is 39% of that of blasting gelatine, and it has a density of 1.15 g per cm ² at a pressure of 1.4 kg / cm 2. If 141.5 g of this explosive are detonated freely suspended in a test room, an air mixture containing 9 percent by volume of methane will not ignite.

In a similar explosive composition of 4O ° / ₀ sodium chloride in finely ground state, no transmission takes place of the detonation.

Example 4

11 parts of trinitrotoluene and 11 parts of ammonium nitrate are ground for 10 minutes. 38 parts of ammonium nitrate and 20 parts of sodium chloride will be added and the mixture milled for an additional 20 minutes. 20 parts of sodium chloride of such a grain, that the whole amount passes through a sieve with a mesh size of 1.003 mm and of retained on a sieve with a mesh size of 0.252 mm are added, and the grinding treatment continues for another 3 minutes. After this time the mix is perfect and it has only a slight grinding of the sodium chloride took place.

The resulting explosive has a detonation speed of 2400 m per second and it can be detonated by a commercially available No. 3 salt detonator. Charges 31.75 mm in diameter and 76.2 mm in length will transmit the detonation when they are 25.4 mm apart. The performance of such an explosive is 39% of that of blasting gelatin, and it has a density of 1.15 g per cm ² at a pressure of 1.4 kg / cm 2. If 169.8 g of this explosive are detonated freely suspended in a test room, no ignition of an air mixture containing 9 percent by volume of methane takes place. In the case of an explosive of a similar composition, which contains 40% sodium chloride in a finely divided state, no decomposition transfer takes place.

Example 5

5.6 parts of trinitrotoluene and 5.6 parts of ammonium nitrate are in a pan mill for 10 minutes ground. 48.9 parts of ammonium nitrate and 16.4 parts of sodium chloride are added and it becomes Ground for another 20 minutes. Then 3.5 parts of wood flour are added and the mixture more Ground for 5 minutes. 20 parts of sodium chloride of such a degree of fineness that the whole amount through a sieve with a mesh size of 1.003 mm and through a sieve with a mesh size of 0.252 mm are added and the mass is left for an additional 3 minutes ground. After this time the mixture is perfect and there is only a slight degree of grinding of the Sodium chloride took place.

The resulting explosive has a detonation speed of 2600 m per second and it can be detonated by a commercially available No. 2 salt detonator. In the case of charges which have a diameter of 31.75 mm and a length of 76.2 mm, and which are arranged at a distance of 25.4 mm ω, a transfer of the detonation takes place. The performance of the explosive is 41% of that of blasting gelatin, and it has a density of 0.89 g per cm ² at a pressure of 1.4 kg / cm 2. If 169.8 g of this explosive "5" is detonated freely suspended in a test room which contains an air mixture containing 9 percent by volume of methane, this gas mixture will not ignite.

An explosive similar in composition containing 36.4 parts of finely divided sodium chloride, has a detonation speed of m per second, it can be compared to a commercially available Salt detonator No. 3 does not ignite, and if charges of this explosive with a diameter 31.75 mm and 76.2 mm long in one

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The detonation continues. 169.8 g of this explosive do not ignite an air mixture containing 9 volume percent methane when released in a test room are hung.

Claims (4)

PATENT CLAIMS: 1. Ammonium nitrate weather explosive powder, which contains, trinitrotoluene and sodium chloride, wherein the ammonium nitrate and trinitrotoluene content of fine, intimately mixed particles consists, characterized in that the amount of sodium chloride in the explosive powder is at least 35 weight percent of the explosives powder makes up, with the whole amount of sodium chloride passes through a sieve with a mesh size of 1.003 mm and at least 10% by weight of the sodium chloride of the explosives are retained by a sieve with a mesh size of 0.1245 mm and at least 10 percent by weight of the sodium chloride of the explosive through a one-mesh sieve 0.1245 mm. 2. Security explosive according to claim 1, wherein this contains 35 to 60% sodium chloride, 5 to I2 ° / _O trinitrotoluene and 65 to 28% mainly ammonium nitrate, characterized in that not more than 25% of the weight of the explosive powder consists of sodium chloride of one degree of fineness that it passes through a sieve with a mesh size of 0.1245 mm. 3. Process for the manufacture of ammonium nitrate safety explosive powder according to one of the preceding claims, characterized in that the trinitrotoluene and ammonium nitrate are ground together in a manner known per se, whereupon the ground thus produced Mixture of sodium chloride is easily mixed in, at least part of which is is retained on a sieve with a mesh size of 0.1245 mm. 4. The method according to claim 3, characterized in that part of the sodium chloride des finished explosive powder that is so fine that it can pass through a sieve with a mesh size of 0.1245 mm passes through it, at any stage of the grinding of the mixture of trinitrotoluene and ammonium nitrate is incorporated during milling and then the portion of sodium chloride is incorporated into the finished product <Explosive powder that is too coarse to pass through a sieve with a mesh size of 0.1245 mm, is easily mixed in. Referred publications:
British Patent Nos. 299462, 552646;
Chemisches Zentralblatt 1950, p. 2391/92. 609 540 6.