DE1909744B2 - Salt pair weather explosives - Google Patents

Description

he strong explosives are allowed that do a

have surprisingly good explosive performance.

The invention thus relates to a modified salt pair weather explosive according to patent 12 39 967

The invention relates to a further embodiment of the one with a content of 4 to 25 percent by weight of an object of the main patent 12 39 967.6, which 30 sensitizing explosive component, 4 to 40 Geaus of a salt pair weather explosive with a percent by weight of a metal formate and without content of 7 to 12% of a sensitizing blasting oil of cellulose-containing fuels as well as with a component and without content of cellulose-containing blasting power corresponding to 15- to 50% blasting fuel and the one blasting power de-gelatin, animal is characterized in that at least 30 to 45 ° / _o has strength blasting gelatine. 35 at least 40 percent by weight of the oxidizing salts through this salt pair weather explosive of the main patent, a sieve with a mesh size of 150 μ, is characterized in that it is used as a fuel - With increasing concentrations of the flame

component 4 to 40%, especially 5 to 30%, of an extinguishing agent decreases the explosive power, and with too-Metallformiats, especially of a sodium, potassium, increasing concentration of the »reactive components calcium, Magnesium, barium or lead formate, 40th «, d. H. the sensitizing component, des contains. These explosives were very safe in the co-oxidizing salt and the fuel that is being used mine pits, where the risk of igniting mine explosive force increases. The one available gas existed, and were particularly advantageous under oxygen the oxidizing salt can in essence such Conditions in which the danger given can be offset by the fiat. Forewarn that gaps filled with gas across the 45 are preferably <* '- oxidizing salt such that Blast holes run or form there. They had at least 75% of it through a sieve of a mesh further advantage that it goes wide of 0.15 mm under atmospheric pressure, and it is further benicht could burn and in a borehole through, preferably at least 25% through a sieve the detonation of an adjacent charge cannot go through to a mesh size of 0.076 mm. Burning could be brought. 50 As a self-explodable sensitizing component

A modification of the above invention is one can choose a liquid nitric acid ester, described in British Patent 10 98 107 such as. B. nitroglycerin or nitroglycol, which and relates to more sensitive explosive masses, which are suitable for component suitable with an amount of nitrodas blasting solid carbon, cellulose can be gelatinized. These components are a little less safe in firedamp. The in 55 can also consist of nitrated hydrocarbons, such as claimed in British patent specification 10 98107 ?. B. nitrotoluene exist. The mass can be purpose masses of 12 to 25 percent by weight of a moderate metal formate content of 4 to 40 yellow self-exploding sensitizing component, by weight, this can essentially represent the fuel, oxidizing salt and fire extinguishing total fuel content of the mass, medium in such concentrations that the mass 60 as metal formate can advantageously be sodium, has an explosive power, by weight, of-30 to lead 50 corresponds to a potassium, calcium, magnesium, barium or ° / _o by weight blasting gelatine, wherein the select formate . However, calcium fuel is preferably composed of a metal formate and free formate is used because this is kept in sufficient quantities of fibrous cellulosic material. Also this gene is available and hardly soluble, not hy-explosives could under atmospheric pressure not groscopically as well as is not poisonous.
burn, and their tendency to ignite mine gas, An explosive according to the invention, which was one lower than that of corresponding explosives such a degree of safety with mine gas that with fibrous cellulose fuel. it can also be used when there is danger

consists that gaps filled with gas during a barren ion preferably consist of 13 to 20 GeExplosions running across the blast hole or weight percent liquid nitric acid ester, 5 to 20 wt. "Cb can form there, consists preferably of weight percent ammonium nitrate, 20 to 10 weight percent up to 12 percent by weight liquid nitric acid ester, percent ammonium chloride, 25 to 40 percent by weight up to 50 percent by weight ammonium nitrate, 14 to 5 percent sodium nitrate and 5 to 20 percent by weight 55% sodium or ammonium chloride and 5 bis metal formate

30 weight percent Meiailfonniat. In a corresponding case, the inventive Safety explosive with exchangeable ions, in the case of explosives up to about 6% from other flames the oxidizing component at least partially extinguishing agents as chlorides, e.g. B. kaolin, and from sodium nitrate and the flame extinguishing agent at least they can advantageously also be waterproof up to about 2% partly consists of ammonium chloride, repellent substance, z. B. guar gum and / or CaI-stands preferably from 7 to 12 percent by weight cium stearate.

liquid nitric acid ester, 4 to 20 percent by weight For explosives in which ammonium nitrate Ammonium nitrate, 20 to 40 percent by weight ammo is used as the oxidizing salt, this is vorium chloride, 25 to 45 percent by weight of sodium nitrate 15 partially with 0.005 to 0.1 percent by weight of a normal and 5 to 20 weight percent metal formate. paint primary aliphatic amine with at least A sensitive explosive that is less safe than 12 carbon atoms, e.g. B. octadecylamine, or a salt when used in mine gas, but treated for the disintegration of such an amine, The invention is described below with reference to Fig is, preferably consists of 13 to 20Ge- ao management examples explained in more detail, all of which are weight percent liquid nitric acid ester, 25 to given amounts are based on weight. 50 percent by weight ammonium nitrate, 10 to 45 percent information on the composition and weight percent Sodium or ammonium chloride and reproduce examples of explosives 10 to 30 weight percent metal formate. The following table corresponds to the invention take sensitive explosives with exchange »5.

example 2 3 4th 5 8.0 6th 8.0 7th 6.0 8th 4.0 9 9.0 1 15.0 12.0 15.0 Nitroglycerin / nitroglycol 20.0 0.1 0.1 - - 0.1 80:20 0.2 0.2 0.2 39.0 32.0 40.0 42.0 16.0 Nitrocellulose 0.4 30.0 29.7 9.5 Ammonium nitrate (treated 28.7 35.9 46.4 36.0 36.0 - with 0.05% octadecylamine) 32.9 36.0 - - - - - 33.0 Sodium chloride 29.2 - - 23.4 - - - - 35.9 Ammonium chloride - - - 35.3 16.5 12.0 16.5 16.5 5.0 Sodium nitrate - 18.4 17.6 15.1 0.5 0.5 0.5 0.5 0.5 Calcium formate 16.2 0.5 0.5 0.5 1.0 1.0 1.0 1.0 1.0 Calcium stearate 0.5 1.0 1.0 1.0 - - - - - Guar gum 1.0 2.0 4.0 - 27 21 24 19th 31 kaolin 4.0 31 27 38 Explosive power with reference to 35 1.40 1.36 1.30 1.30 1.27 Blasting gelatine (%) 1.45 1.40 1.27 2.3 2.2 2.0 1.9 1.8 Density (g / cm ^s ) 1.58 2.7 2.4 2.3 Detonation velocity 3.3

(Diameter 31.75 mm) km / s

Reproductive sample 25.4— 35.6— 12.7— 12.7— 10.2— 5.1— 5.1— 2.5— 2.5 -

(Diameter 31.75 mm; 27.9 cm 38.1 cm 15.2 cm 15.2 cm 12.7 cm 7.6 cm 7.6 cm 5.1cm 5.1cm County £ - ⁷ O 2 mm)

Smallest initiator (Bang No. 1 No. 1 No. 1 No. 1 No. 1 No. 1 No. 1 No. 2 No. 1 mercury / chewing chlorate 8: 2)

Ammonia in the after-smoke none none none none none none none none

Firing test no no no no no no no no no

The compositions of the explosives according to the looks of a detonated cartridge and Examples and the explosive power and detonation of a receptor cartridge noted. As a measure of the speed were determined according to known methods 65 smallest initiator was used the lowest standard. When testing for detonation transmission, detonators made of fumed mercury and chlorate, the Was the maximum distance for end-to-end progress - the mass could detonate. Planting the detonation over an air gap between

State of a

■ *

filled column,
could one in after-smoke, ie

Claims (3)

The above masses were very successful. Claims: W KohiensprengarbdieiL It was found ! «Piuuuyiuuis. ^ ate jjj _e detonation gases when igniting under poor L modification of the salt-pair-weather sprinkling system, inclusions contained an undesirable amount of ammonia m ^ rndLZJiSoaSitmaaSSi s. It has now been found that the 4 to 25 percent by weight of a sensitizing amount of ammonia and also the amount of carbon explosive component, 4 to 40 percent by weight lenoxide and nitrogen oxides are found after the detonation of a metal form and without any cellulose-accumulating gases Can be considerably reduced, containing fuels as well as having an explosive power if the oxidizing salt in a more widely distributed form as corresponding 15 to 50% blasting gelatin, which is usually used up to now Grain size that at least 40 percent by weight of the oxidizing salts pass 95 percent by weight through a sieve eroe ^ mesh through a sieve with a mesh size of 150 μ to 0.5 mm and about 70 percent by weight pass through a sieve with a mesh size of 2. An explosive according to claim 1, characterized in that it is retained 15 0.15 mm. A significant one shows that the oxidizing salts at least improve those which decompose after the detonation 75 percent by weight through a sieve of a mesh gas is achieved if the oxidizing salt is a go through a width of 150 μ. has such a grain size that at least 40 weight 3. An explosive according to claim 1 or 2, characterized in that the oxidizing salts pass through a sieve with a mesh size of 0.15 mm. The use of a fine oxidizing salt at least 25% by weight distributed through a sieve has to pass through a mesh size of 76 µ. part that the explosive mass is mixed more intimately can, so that the propagation of the detonation is improved and thereby the use of less