DE1269930B - Weather explosives with increased deflagration security - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

C 06b

German class: 78 c -17

Number: 1 269 930

File number: P 12 69 930.8-45

Filing date: December 15, 1964

Opening day: June 6, 1968

The subject of the invention is a weather explosive with increased deflagration security and energy, consisting of a quaternary mixture of ammonium chloride, alkali nitrates and alkaline earth carbonates, a sensitizing explosive oil component in an amount of 6 to 15% and optionally Inert substances, characterized by a molar ratio of the ternary mixture of ammonium chloride / alkali nitrate / alkaline earth carbonate = 5: 3: 1 (ammonium chloride / alkali nitrate = 1.67, ammonium chloride / alkaline earth carbonate = 5, alkali nitrate / alkaline earth carbonate = 3).

There are known explosives which, in addition to a sensitizing component, ammonium nitrate, Contain ammonium chloride and calcium carbonate. However, these explosives are sufficient for today's Safety requirements against firedamp ignition are not, as will be shown later.

It is also known from French patent specification 1,222,422, ammonium chloride and calcium carbonate to add explosive mixtures that also contain potassium or sodium nitrate can. In the case of these explosives, however, the main purpose of adding these salts is to increase the Deflagration security, but not to increase the energy of the known explosives, while at the explosives according to the invention deflagration security and energy are increased, as later is still being shown.

When shooting in coal underground, explosives with a high degree of security against firedamp ignition must be used. They consist of sensitizing components (mixture of nitroglycerin and nitroglycol or nitropenta) and the so-called inverse salt pair made of alkali nitrate (potassium or sodium nitrate) and ammonium chloride. Compared to the usual rock explosives and the weather explosives of class I, these explosives have a relatively favorable behavior under thermal stress. However, shows explosives with increased
Deflagration security

Applicant:

Dynamit Nobel Aktiengesellschaft,

5210 Troisdorf

Named as inventor:
Dr. Adolf Berthmann, 5090 Leverkusen;
Dr. Gotthard Kuhn, 7505 Ettlingen;
Dr. Paul Lingens, 5000 Cologne-Marienburg

the blasting practice that it is desirable to increase their deflagration security even further.

It has now been found that weather explosives with increased deflagration security can also advantageously be used from sensitizing components and inorganic salts, if one can use as Inorganic salts a ternary mixture based on ammonium chloride, alkali nitrates and Alkaline earth carbonates in a molar ratio of 5: 3: 1 (ammonium chloride / alkali nitrate = 1.67; ammonium chloride / Alkaline earth carbonate = 5; Alkaline nitrate / alkaline earth carbonate = 3) used. The replacement of the known binary salt mixtures of alkali nitrates and ammonium chloride by the ternary salt mixture Ammonium chloride, alkali nitrates and alkaline earth carbonates surprisingly lead to an increase the specific energy and at the same time to significantly deflagration-proof weather explosives.

The following equations I, II and III correspond to the salt mixtures known above Explosives; In contrast, equations IV and V are the explosives according to the invention:

3NH ₄ NO ₃ + 2NH ₄ Cl + CaCU ₃ = CaCl ₂ + 4 N ₂ + 10H ₂ O + CO ₂

NaNO ₃ + NH ₄ Cl = NaCl + N ₂ + 2 H ₂ O + '/ 2 O ₂

KNO ₃ + NH ₄ Cl = KCl + N ₂ + 2 H ₂ O +> / ₂ O ₂

3 NaNO ₃ + 5 NH ₄ Cl + CaCO ₃ = 3 NaCl + CaCl ₂ + 4 N ₂ + 10 H ₂ O + CO ₂ 3 KNO ₃ + 5 NHiCl + CaCO ₃ = 3 KCl + CaCl ₂ + 4N ₂ + 10 H ₂ O + CO ₂

Table 1 shows the thermodynamic data for the various reaction equations listed.

809 558 207

Tabel !

Salt mixture of the
Reactions O ₂ balance Explosion heat Explosion
temperature Sdiwadenvolume Specific
Energy*) Solid swaths
components ■ Ό Kcal / kg K I kg mt.kg % I. 0 381.7 1597 751.5 45.4 24.8 II + 11.5 211.5 1109 566.1 23.7 42.2 III + 10.3 187.6 1101 507.1 21.1 48.2 IV 0 268.9 ^! 304 539.6 26.6 46.0 V 0 248.4 1299 500.9 24.6 49.9

*) The specific energy is the product of the gas constant R, the vapor volume in moles per kg and the explosion temperature in K.

The known salt mixture according to equation I results in a high specific energy, but also a high explosion temperature and a low proportion of solid vapor components. However, explosives of this type do not meet today's high requirements for protection against firedamp. In addition, both the exact grinding and processing of the ammonium nitrate is difficult to achieve due to its easy absorption of moisture and its low transformation point (32 C). The molar ratio of ammonium chloride ¹ ammonium nitrate / alkaline earth carbonate is 2: 3: 1.

The reaction of the inverse salt pairs (equations II and III) is characterized by a very high one positive oxygen balance, in contrast to the salt combinations according to the invention, their acidic substance balance Is zero. The molar ratio is 1: 1.

From the table above it can also be seen that the specific energy and the solid The vapor components in the equations with the ternary salt mixture are higher than in the equations with the inverse salt pair (cf. equation II with IV and III with V). Although one has the inverse Salt pair calcium carbonate is added, which is usually used as an inert component in mixtures of explosives considered, you get explosives with a higher specific energy, since the CaCOa in this case participates in the reaction.

Sensitizing components for the purposes of the present invention are the known nitric acid esters polyhydric alcohols such as glycol dinitrate. Glycerin trinitrate (nitroglycerin), pentaerythritol tetranitrate (Nitropenta) and the like. However, mixtures of these nitric acid esters can also be used.

A comparison of the salt mixture according to equation V with the examples of the French U.S. Patent 1,222,422 mentioning these three salts (Examples H and J) shows the following major differences:

According to the examples of the French patent for NH ₄ CL KNO; CaCQs, the molar ratio of the comparable salt-like constituents is 6.6: 5.9: 1 or 6.8: 5.8: 1. It has now surprisingly been found that with a molar ratio of these three salts of 5: 3: 1, the specific energy of the energy-supplying salt-like constituents is significantly higher than in the examples of the French patent and that comparable explosives, which were produced according to the molar ratio of 5: 3: 1, despite their higher specific energy and despite the lower molar Ar part of the calcium carbonate showed an equally good deflagration security (see Table 2). This improvement in the blasting properties as a result of the use of the specific molar ratio of the salt-like constituents could not be foreseen on the basis of the study of the French patent specification.

Table 2 Mole ratio
NH ₄ CI KNO ₃ = 1.11 Specific
energy example = 1.19 mt kg 6: 5.95 = 1.67 20.0 H (French
Patent specification) 6th 8: 5.8 = 21.1 J (French
Patent specification) 6th : 3 24.6 Equation V
(according to the invention) 5

Alkaline nitrates are used to manufacture the new weather explosives. Preferably be the nitrates of potassium and sodium are used.

Calcium carbonate is preferred as the alkaline earth carbonate used. But magnesium carbonate, Barium carbonate or mixed carbonates. such as dolomite can be used.

The implementation of the ternary salt mixture during the detonation also depends, as it already did was previously described for the salt pair alkali nitrate-ammonium chloride, from the grain fineness of the Salts off. The amount of the sensitizing explosive component must therefore also depend on the grain size set up to ensure, on the one hand, a high level of fire-weather security and, on the other hand, a good detonation capability to achieve, d. h .. the salts z. B. very finely ground, so must the explosives a larger proportion of the sensitizing component can be added than when it is present in relative terms coarse-grained salts.

Explosives with good firedamp safety and performance are obtained if one for that ternary salt mixture selects a grain fineness at which at least 30 and at most 95 "η pass a sieve with a mesh size of 0.1 mm. The amount of sensitizing component must be between 6 and 15 percent by weight, preferably between 7.5 and 11.5 percent by weight.

The explosives according to the invention can also be known combustible substances (e.g. guar flour. Wood wool. Metal soaps, etc.). the z. B. to loosen up or to increase the water resistance are added. Of course you have to

then for the amount of oxygen-releasing inorganic salts or salt mixtures sufficient for combustion (e.g. KNO: i + NHiCl in the molar ratio 1: 1) to be taken care of. The alkali nitrate added here or the salt mixture of alkali nitrate however, ammonium chloride is taken into account when calculating the ammonium chloride / alkali nitrate / alkaline earth carbonate molar ratio not included in the explosives.

Can continue to _{explosives) 0} inventive materials also known inert materials (eg. As saline. Alumina silicates. Ferric oxide etc. are added). z. B. to increase firedamp safety or shelf life.

The advantages of the weather explosives according to the invention are that the deflagration security is improved with a simultaneous increase in energy. This should be made clear by the following examples will.

Examples la) and 1 b)

Three explosives were produced in a manner known per se by mixing, their composition of the salts according to equations III. V and VI directs.

All three explosives are class III according to the German regulations for weather explosives (See article by Ahrens. Nobel Hefte. May 1959) safe against a methane-air mixture.

1 a) Comparative example
Explosives in accordance with equation III (NH, C1 _KNO; = 1)

consisting of "weight

percent

Nitroglycerin 5.22

Nitroglycol 3.48

Potassium Nitrate 70 "" <0.1 mm .. 59.71

Ammonium chloride 60 "

Il <■

0.1 mm

31.59

40

Blasting properties:

Oxygen excess +9.6 ""

Specific energy 30.9 mt kg

Det. Transmission exposed on

Sand (cartridge diameter

= 32 mm) 40 cm

Deflauration security:

Blasting properties:

Oxygen excess +0.2 "/ ,,

Specific energy 33.5 mt / kg

Det. Transfer exposed on sand (cartridge diameter

= 32 mm) 40 cm

Deflagration security:

Ten attempts in the Audibert pipe did not result in any conversion of the explosive.

A cartridge of the explosive, surrounded by a jacket of kieselguhr, was in the oven at 2 (X) C heated, only a temperature increase of 20 C could be measured in the explosive.

Example 2

Two explosives were produced, the composition of which is based on the equations III and V are aimed.

Explosives according to equation III

(NHiCl NaNO :! = 1) consisting of weight

percent

Nitroglycerin 6.6

Nitroglycol 4.4

Sodium Nitrate 70 "» <0.1 mm 54.63

Ammonium chloride 65 " ₍₎ <0.1 mm .... 34.37

Blasting properties:

Oxygen excess + 10.5 ""

Specific energy 35.7 mt kg

Det. Transfer lying exposed on sand (cartridge diameter

= 32 mm) 35 cm

Safety against a methane-air mixture:

According to the German regulations for weather explosives, the explosive is class II (See article by Ahrens in Nobel Hefte, May 1959) with six cartridges in the edge safe against a methane-air mixture.

Deflagration security:

In ten attempts in the Audibert tube, seven more or less pronounced results were found Implementations of the explosives.

In the Audibertrohr (see article \ on Ahrens Was the explosives, surrounded by a man

in Nobel magazine. May 1959. p. 126) resulted from kieselguhr, heated in an oven to 120 C, so stepped

in ten attempts six more or less 50 a temperature increase by after some time

pronounced conversions of the explosives. 650 C.

A cartridge of the explosive is heated in an oven to 140 C and provided with a jacket made of kieselguhr to ensure that heat can build up in the cartridge, there is one in the explosives Temperature increase by about 600 C.

1 b) Explosives according to the invention

Explosives according to equation V.

(NH, C1KNÖ _:! = 1.67: NH ₁ ClCaCOi = 5:

KNO :) CaCQj = 3) consisting of weight

percent

Nitroglycerin 5.22

Nitroglycol 3.48

Potassium Nitrate 78 "" <0.1 mm 41.28

Ammonium chloride 65 ",) <0.1 mm 36.40

Calcium carbonate 85 "» <0.1 mm 13.62

Explosives according to equation V '

(NHiCl NaNO _{: i} = 1.67; NH ₁ ClCaCQs = 5:

NaNO :) CaCO :; = 3) consisting of weight

percent

Nitroglycerin 6.6

Nitroglycol 4.4

Sodium Nitrate 77 "» <0.1 mm 36.45

Ammonium chloride 62 "0 <0.1 mm

38.23

Calcium carbonate 85 ° ₍₎ <0.1 mm 14.32

Blasting properties:

Oxygen pilot shot +0.2 ⁰ O

Specific energy 37.6 mt kg

Det. Transfer lying exposed on sand (cartridge diameter

= 32 mm) 40 cm

Safety against a methane-air mixture:

According to the German regulations for weather explosives, the explosive is class II (see article by Ahrens in Nobel Hefte, May 1959) with six cartridges in the edge against a methane-air mixture.

Deflagration security:

Ten attempts in the Audibert pipe did not result in any conversion of the explosive.

If the explosive, surrounded by a jacket made of kieselguhr, was heated to 200 ° C. in the oven, then it occurred a temperature increase of 30 C in the explosives.

A comparison of the two explosives of Example 2 shows that here too the inventive Explosives have an increased specific energy and an improved deflagration security.

Claims (3)

Patent claims: 1. Weather explosives with increased deflagration security and energy, consisting of one quaternary mixture of ammonium chloride, alkali nitrates and alkaline earth carbonates, one sensitizing explosive oil component in an amount of 6 to 15 "/ n and optionally inert substances and combustible substances, characterized by a molar ratio of the ternary mixture of ammonium chloride / Alkaline nitrate / alkaline earth carbonate = 5: 3: 1 (ammonium chloride / alkaline nitrate = 1.67, ammonium chloride / Alkaline earth carbonate = 5, alkali nitrate / alkaline earth carbonate = 3). 2. Weather explosive according to claim 1, characterized in that it is combustible substances and additionally contains oxygen-releasing inorganic salts or salt mixtures, the latter are only present in such quantities that they are just for the combustion of the combustible Substances are sufficient. 3. Weather explosive according to claim 1 and 2, characterized in that it contains salts in one contains such a grain fineness that at least 30 and at most 95% a sieve of 0.1 mm Mesh size pass. Considered publications:
- German Patent No. 854 769;
British Patent No. 882,584;
French patent specification No. 1 222 422.