DE2529039A1 - WEATHER EXPLOSIVES - Google Patents

Description

Troisdorf, June 27th, 1975 OZ: 75 056 (2444)

DYNAMIT NOBEL AKTIENGESELLSCHAFT Troisdorf, District Cologne

Weather explosives

The present invention relates to powdery weather explosives on the basis of sensitizing components and reverse salt pairs as well as burnable if necessary organic substances and metal carbonates that have the same proportions of sensitizing to known weather explosives Components have a higher level of energy and greater resistance to firedamp.

The invention also relates to a method for making these weather explosives.

The well-known powdery weather explosives based on sensitizing components, a reversed salt pair, metal carbonates and combustible substances release only a limited amount of energy after detonation. An energy boost by increasing the proportion of sensitizing components or the proportion of combustible substances however, a high negative oxygen balance often fails because of this associated reduction in the fire weather safety of the explosive mixture.

Powdery weather explosives have now been found that by adding flame retardants that create an intumescent layer

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Marked are. As a result of this addition, they own Weather explosives have a higher firedamp safety than comparable weather explosives. It is even possible to share

of energy-supplying substances in the explosive mixture within given limits increase ai without affecting the firedamp safety decreases.

The energy increase while maintaining firedamp protection must be viewed as particularly over-ashing, since the

'The flame retardants mentioned contain substances, such as synthetic resins, which have an oxygen balance of less than -150 or

■ have -200%. Also the deflagging security of the powdery Weather explosives are "created by the incorporation of intumescent Flame retardants increased ·, although due to the high negative oxygen balance in these flame retardants » Organic substances containing agents could have expected a reduction in the safety of deflation.

The use of the flame retardants mentioned thus leads to weather explosives with relatively high energy, which also have favorable explosives and safety properties.

The intumescent flame retardants contain substances which (similar to the so-called Pharaoh snakes) swell upon heating foamy char from 200-300 ⁰ C and thereby to solidify and form a fine-pored good insulating pad. This cushion forms a layer on the surface of the combustible substances in the explosives.

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The usable, intumescent flame retardants exist from a mixture of a phosphoric acid source (such as ammonium polyphosphate, diammonium hydrogen phosphate), a hydroxyl-rich component and a propellant. Diols or polyglycols are used as components rich in hydroxyl groups such as starch or pentaerythritol are used. However, low molecular weight, not yet hardened condensation products can also be used from formaldehyde (or formaldehyde-supplying substances), urea and / or malamine and / or optionally phenols are used commonly referred to as amminoplasts. These precondensates also contain numerous hydroxyl groups which under the action of heat with the phosphoric acid formed from the phosphoric acid source to carbon, water, Carbon dioxide and non-flammable gases, as well as possibly hardened amminoplast foams, react.

The blowing agent, e.g. dicyandiamide, ensures that the carbon-rich decomposition products are foamed.

The flame retardants which form the intumescent layer owe their excellent effect to the ability of the synthetic resins to contribute To form highly inflated, poorly heat-conducting foam crusts under the influence of heat and thereby, without burning itself, a to cause relatively long-lasting insulation against further heat and fire.

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The flame retardants that form the intumescent layer depend on the type of flame retardant used Components in powder form or as liquids.

They can also be used in the usual solvent solutions for flame retardants. * others

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agents are used dissolved. It is therefore possible to use weather explosives in both liquid and powder form State to add.

A preferred method is to remove the surface of one or more granular substances of the weather explosive to cover more or less completely with the - preferably aqueous - solutions of flame retardants, then the solvent To evaporate solvent and to add the powdery components thus provided with the flame retardant to the weather explosive. With regard to the production of a homogeneous mixture, this process can be used with good success in a so-called Fluid mixer can be carried out.

This embodiment can be carried out particularly advantageously, if substances with a negative oxygen balance are affected by the intumescent flame retardants are surrounded. If a weather explosive contains e.g. wood flour, this can can be easily and quickly mixed with a liquid flame retardant in the fluid mixer. After drying or hardening of the The wood flour is then added to the weather explosives using a plastic binder. This way you can use the highly secure weather explosives more combustible substance quantities are added, i.e. the oxygen excess of the reversed salt pair in the wet

Explosives can be stronger than without the case according to the invention
action to be dismantled.

This procedure enables the increase already mentioned above of energy while improving or at least maintaining

■.

j maintaining a high level of protection against firedamp and deflagration.

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The amount of flame retardants to be used is 0.1 to 5% by weight, preferably 0.5 to 2.0% by weight, based on the total explosive. This amount is calculated as the dry matter

the exact amount depends on the oxygen balance of the rest Explosives components. Those contained in the weather explosives In a known manner, inverted salt pairs consist of the nitrates of potassium or sodium or mixtures of these both and from ammonium chloride. The ammonium chloride need not be present in an equimolar ratio to the nitrates. The molar ratio of ammonium chloride to alkali nitrate can assume the values 0.6-1.6, preferably 0.9-1.3. The proportion of the inverted salt pair in the total explosive is between 60 and 90% by weight, preferably between 75 and 85% by weight.

In addition to the alkali nitrates, other oxygen-releasing salts such as ammonium nitrate can also be added in a known manner. The ammonium nitrate is preferably in the form of granules or prills. Its content in explosives can be up to 40% by weight, preferably 4-20% by weight.

The weather explosives according to the invention can be used as combustible substances Contain vegetable flours such as starch or guar flour as well as wood flour, sugar and substances with a similar oxygen balance. Salt-like compounds such as the ammonium, alkali or alkaline earth metal salts can also be used as combustible substances organic acids such as ammonium oxalate, potassium hydrogen tartrate or calcium formate.

The combustible substances can be in the weather explosives in amounts between 0.5 and 8 wt .-%, preferably between

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3.0 and 5.0 wt .- #, based on the explosive mixture be.

The metal carbonates that can be used are, for example, alkali and alkaline earth carbonates such as sodium hydrogen carbonate, magnesium carbonate, Calcium carbonate, dolomite, barium carbonate and heavy metal carbonates such as zinc carbonate or iron carbonate.

The metal carbonates are in the weather explosives in amounts between 3.0 and 10.0, preferably between 4.0 and 8.0 % By weight before.

Sensitizing components for the purposes of the invention are the nitric acid esters of glycerol, glycol and pentaerythritol or mixtures of these. In the liquid state, the nitric acid esters can be thickened in a known manner. The amount of sensitizing component is between 6.5 and 15% by weight, preferably between 8 and 12% by weight.

The explosives can contain water-repellent agents such as metal soaps, e.g. calcium stearate, in a known manner. In addition to the metal carbonates, they can also contain other inorganic "substances such as alumina, silicic acid, in a known manner or magnesium oxide can be added.

The weather explosives according to the invention are produced in a known manner. The inorganic constituents, with the exception of the ammonium nitrate grains, are brought to a grain fineness at which 30-100 % pass a sieve with 0.1 mm mesh size. The flame retardant is either added in granular form or applied to the surface in the manner described above

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other substances drawn up and added to the mixture after drying. It proves to be particularly effective when it is applied to the Surface of the combustible substances is brought. Then the solid components are mixed with the liquid mixed sensitizing components.

The advantage of the inventive weather explosives is that the addition of the flame retardants described leads to a significant increase in energy while maintaining firedamp and deflagration protection. If with the Flame retardants the organic combustible substances are treated, loosening and / or water-binding in the powdery explosives act, such as wood flour or guar flour, an improved shelf life is achieved in this way.

Examples are given below to illustrate the invention. The idea of the invention is intended through these examples not be restricted.

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example 1

1.47 parts of a viscous flame retardant sold commercially under the name R 7 ^ 2 by the company "Feiten & Guillaume AG", Cologne, were mixed with 2 parts of wood flour in a high-speed mixer. The flame retardant mentioned contained about 32 % water, about 17 % water-insoluble aminoplasts,! about 12 % diamminium hydrogen phosphate and about 40 % water-soluble resins and foaming agents. After mixing that became the -with that

Flame retardant coated wood flour, dried; the dried

t surface of 2 parts wood flour was then with part of the; dried flame retardant paint. This product was with the solid components of the explosives mixture 1 ! (Table 1) premixed in a Werner Pfleiderer machine.

The liquid sensitizers were then mixed in for 20 minutes.

For comparison, a known weather explosive (mixture 2) is listed in Table 1. In place of the mixture of ^HoIz-: flour, and flame retardants it contains so much wood flour, that the

^! both finished explosive mixtures have the same oxygen balance. The fire weather safety listed in Table 1 was determined according to the German test conditions for class II explosives (cf. H. Ahrens, Nobel Hefte, May 1959). The greater the number of cartridges that is currently one

! Do not ignite a firedamp mixture, the safer an explosive is. To measure the energy, 3 cartridges (100 g, 30 mm diameter) were shot in the pendulum mortar and the

, standing deflection of the mortar measured. (For carrying out the experiment

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and calculation of the energy see P. Lingens W. Christmann and H.Radzewitz, Nobel Hefte, April-June 1974)

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Table I.

composition Explosives No. 2 1 6.60 Glyc erixitrini tr at 6.60 4.40 Glycol dinitrate 4.40 45.50 Sodium nitrate 45.63 34.00 Ammonium chloride 34.07 0.15 finely divided silica 0.15 0.05 Calcium stearate 0.05 0.10 graphite 0.10 5.00 Calcium carbonate 5.00 1.00 Guar flour 1.00 3.20 Wood flour 2.00 - dried flame retardant 1.00

Oxygen balance% energy measured in the pendulum mortar kJ / kg firedamp resistance

+ 0.40

1130

Cartridges ignition

No cartridges
ignition

+ 0.40

1140

Cartridges ignition

Cartridges no ignition

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From the test results of the determination of the firedamp safety and the energy shows that there are two very similar explosives with the same oxygen balance and practical be able to clearly differentiate between the same energy in firedamp safety. The inventive explosives mixture No. 1 is made by adding the intumescent flame retardant considerably safer against the risk of firedamp ignition than the well-known explosives mixture no.2.

Example 2

1.18 parts of the flame retardant mentioned in Example 1 were mixed with 4.2 parts guar flour in a high-speed mixer. After drying, the product consisted of 4.2 parts of guar flour and 0.8 parts of the dried and hardened flame retardant. The manufacture of the explosives was otherwise as in Example 1 described.

Compared to the inventive explosives mixture No. 3 Table 2 lists two more known explosives that do not contain flame retardants. The firedamp safety was carried out in accordance with the German test conditions for class III weather explosives (cf. H. Ahrens, Nobel Issues, May 1959).

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Table 2

! composition

Oxygen balance% energy measured in the pendulum mortar kJ / kg firedamp resistance

Explosives No. 3 4 5

Glycerol trinitrate 5.4 5.4 5.4 Glycol dinitrate 3.6 3.6 3.6 Sodium nitrate 46.3 47.2 47.1 Ammonium chloride 34.4 35.0 34.9 Clay 0.3 0.3 0.3 Calcium carbonate 5.0 5.0 5.0 Guar flour 4.2 3.5 3.7 dried flame retardant 0.8 -

+ 0.3 + 2.7 + 2.5

1065

960

970

no no ignition ignition ignition

A comparison, the compositions and the test results for the explosive mixtures No. 3 and 4 shows that with the mixture according to the invention No. 3 a significantly higher energy is achieved is called with the well-known mix # 4. Both mixtures are according to the German test conditions for weather explosives Class III safe against firedamp ignition. Trying that Burn the energy of the known mixture No. 4 by adding more Increasing material did not lead to the goal. So ignite

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te mix # 5, its guar meal content compared to the mix No. 4 was only slightly increased, the firedamp mixture in the test track

Troisdorf, June 27th, 1975
Dr.Sk/Ma

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Claims (2)

Claims 1, powdery weather explosives based on sensitizing Components, reversed salt pairs and possibly combustible organic substances and. Metal carbonates, characterized by a content of intumescent flame retardants. 2. A process for the production of powdery weather explosives according to claim 1, characterized in that one if combustible organic substances are also used, these are pretreated with the flame retardant that forms the intumescent layer, optionally dries, and then with the remaining explosive components in a well-known manner mixed. 609883/0529