RU2180328C1 - Explosive composition - Google Patents

Abstract

FIELD: explosive substances. SUBSTANCE: invention relates to production of industrial explosive compositions based on utilizable explosive substances. Explosive substance involves sensitizing agent and water-soluble organic compound. Sensitizing agent is utilizable explosive substances, for example, solid rocket fuels, and/or gunpowders, and/or explosive substances with critical detonation diameter D_cr less 10 mm. Gel-forming agent involves thickening and cross-linking agents. Composition has additionally an addition regulating the rate of structurization. For regulation of denotation rate ES at broad limits the composition can contain energetic addition as solid rocket fuels, gunpowders with critical detonation diameter D_cr above 10 mm. To provide the possibility of regulation of explosion energy by hole deep the composition can contain additionally dispersed air or air-containing components, for example, glass or organic spheres or aluminum powder. Invention is directed to the development of an aqueous-gel industrial explosive substance that is possible to work at the range of positive and negative temperatures. EFFECT: improved method of production and properties, expanded assortment of utilizable explosive substances. 4 cl, 4 tbl

Description

 The invention relates to the manufacture of industrial explosive compositions based on disposable explosives. It can be used in the disposal of rocket engine charges (RD) from solid rocket fuel (TRT) or its fragments, TRT itself - in the form of waste or irrevocable marriage in the production of charges, artillery gunpowder and powerful explosives (MVV) extracted from ammunition or from the State Reserve, ensuring environmental safety of the liquidation process and the rational use of liquidated materials. In addition, the invention can be used in mining.

 There are various ways to utilize TRT charges from taxiways and gunpowder. For example, the utilization of the charges of ground detonation-capable mixed solid rocket fuel (STRT) extracted from the RD based on ammonium perchlorate and octogen in an environmentally friendly water-gel industrial explosive (HHEP) based on ammonia nitrate - a collection of reports at the 2nd All-Russian Conference on Integrated Utilization conventional types of ammunition ".- M .: TSNIINTIKPK, 1997, p.115.

 A characteristic feature of VPTVV is the presence of fine-dispersed atmospheric air material in it, acting as a sensitizer.

This method does not solve the whole problem of utilizing a large range of charges from TRT, vices, and MVV because a simple substitution of a detonation-efficient TRT in VGPVV for fuel of any type that is not capable of detonation alone leads to a negative result. In addition, VGPVV is inoperative in a cooled state in the negative temperature range (from zero to minus 40 ^o C) due to a decrease in the volume of air inclusions due to an increase in air density with decreasing temperature, and due to an increase in its solubility in water, which important for Russian conditions where negative temperatures prevail during the year.

 Replacing dispersed air with microspheres of any type (glass and organospheres) with the air enclosed in them does not solve the problem.

 The prototype of the invention is an explosive composition comprising disposable explosives as a sensitizer and a water-gel base containing an oxidizing agent, a gelling agent, water and a water-soluble organic compound (see TU 84-7509509-91-95, VGP-1, table 1).

 The disadvantages of the prototype are inoperability at low temperatures due to freezing of the composition and a limited range of utilizable explosives, reduced to mixed solid rocket fuel (SRTT).

 In the invention, the following technical problem is solved: the performance of the HHPVV in the field of positive and negative temperatures with an expanded assortment of recyclable substances.

The technical problem is solved in an explosive composition comprising a sensitizer and a water-gel base containing an oxidizing agent, a gel-forming agent, water and a water-soluble organic compound. In this case, the sensitizer is utilized explosives, such as solid rocket fuels, and / or gunpowder, and / or explosives with a critical detonation diameter D _kp <10 mm; oxidizing agent - ammonium nitrate or its mixture with sodium or calcium nitrates; the gelling agent includes a thickening agent — guar gum, polyacrylamide or carboxymethyl cellulose, a crosslinking agent — borates, antimonates or chromates, a water-soluble organic compound — ethyl alcohol or ethylene glycol; and additionally an additive was added that regulates the structuring rate — sodium carbonate or organic acid in the following ratio of components, wt.%:
Solid rocket fuels and / or gunpowder and / or explosives with a critical detonation diameter D _cr <10 mm - 9.0 - 30
Ammonium nitrate or its mixture with sodium or calcium nitrates - 50.0-70.0
Guar gum, polyacrylamide or carboxymethyl cellulose - 0.02-1.5
Borates, antimonates or chromates - 0.01-1.0
Sodium carbonate or organic acid - 0.02-0.1
Ethyl alcohol or ethylene glycol - 0.5-5.0
Water - 8.0-15.0
To control the detonation velocity of explosives within a wide range, an additional energy additive is introduced in the form of solid rocket fuels, powders with a critical detonation diameter of D _cr > 10 mm in an amount of up to 30 wt.%.

 In addition, to ensure the possibility of controlling the density of the composition and, therefore, achieving the possibility of controlling the energy of the explosion along the depth of the well, it may contain dispersed air or air-containing materials, such as glass and organospheres, or aluminum powder.

 The specific ratio of the components is established on the basis of the quantity and type of material to be utilized, ensuring an oxygen balance of minus 0.8% to minus 8% and an environmentally acceptable composition of explosive conversion products.

The following are generalized test results. Detonation-propellant rocket fuels with D _cr > 10 mm and non-detonation-propellant TRT do not provide explosive performance in the temperature range below 0 ^o C.

The introduction into the composition of HBVV as a sensitizer of detonation-sensitive BRRT with a critical detonation diameter D _cr <10 mm causes HBVV to detonate both in the positive and negative temperature range, despite the presence of dispersed air in it. At the same time, the diameter of the charge of the VGPVV in the region of positive temperatures decreases from 100 to 85 mm. In this case, the ballistic fuel itself acts as both a sensitizer and an energy supplement. The detonation velocity is also regulated by the introduction of dispersed air into the explosive composition (Table 2, Var. 1).

 The introduction of non-detonation-based armored troop-borne transmissions into the composition of HBVV leads to a negative result.

Pyroxylin powder with D _cr <10 is also an effective sensitizer, allowing the introduction of an energy supplement in the form of detonation- _rich TPT with D _cr > 10 mm without detriment to the detonation ability of explosives at low temperatures. The introduction of dispersed air into the composition of the HHPE does not affect the detonation ability of the explosive at -40 ^o C (version with crumb pyroxylin powder).

 Changing the ratio of sensitizer - energy supplement (STRT) allows you to adjust the speed of detonation of explosives in a wide range.

The data in the tables show that for the disposal of solid rocket fuels, gunpowder, and MBV, a water-gel base is required, which is a water-gel explosive. The use of a sensitizer with a water-gel base, such as TRT, gunpowder or explosives with a critical detonation diameter of D _kp <10 mm, makes it possible to obtain PVHVV, working in a wide temperature range up to -40 ^o C. The minimum content of these sensitizers in the detonation base of explosives is in the range of 10-15 wt.%. This is especially clearly illustrated by the data in Table 4.

According to the examples in table. 4 (option 1), the HBVB containing hexogen reliably detonates at minus 30 ^° C. Replacing hexogen with octogen or a mixture thereof leads to a similar effect.

 The introduction of STRT into the composition of the HBVV due to the oxidizing agent, regardless of the detonation ability of the fuel, does not affect the detonation ability of the explosive. HBVB itself is a powerful explosive and can be used independently.

Thus, the use of various utilizable explosives in a water-gel industrial explosive makes it possible to obtain the following positive effects:
- utilization of rocket engine charges from STRT and BTRT, gunpowder, MVV of any types by the most environmentally, economically and technically rational method, using them as an energy or simultaneously sensitizing additive in water-gel industrial explosives after grinding charges of solid fuels and long tube powders into crumbs acceptable sizes. At the same time, all the positive qualities of water-gel explosives based on ammonia, sodium and other nitrate, their fire and explosion protection, water resistance, and the ecological purity of explosive conversion products are preserved;
- ensuring the temperature range of the working capacity of explosives in the field of negative temperatures (up to minus 40 ^o С);
- increase the density of explosives and thereby increase the concentration of energy per unit volume of explosives;
- regulation of the detonation velocity of explosives by varying the content of utilized energy additives;
- regulation of the concentration of explosive energy due to both a change in the detonation velocity and density of the explosive by dispersing air in it or introducing finely divided spheres with air enclosed in them, for example, glass and organospheres.

- reduction of the content of harmful chlorine, carbon monoxide, nitrogen oxides, soot in the products of the explosive conversion of utilized TPT, gunpowder and MBP to an environmentally acceptable level;
- regulation of the rate of structuring of explosives by changing the acidity of the medium, regardless of the utilized TRT, gunpowder, and explosives as an energy or sensitizing additive in HBVV.

Claims (3)

1. An explosive composition comprising a sensitizer and a water-gel base containing an oxidizing agent, a gelling agent, water and a water-soluble organic compound, characterized in that it contains utilizable explosives, such as solid rocket fuels, and / or gunpowder, and / or explosives with a critical detonation diameter D _cr less than 10 mm, as an oxidizing agent - ammonium nitrate or its mixture with sodium or calcium nitrates, a gelling agent, including a thickener - guar gum, polyacryl amide or carboxymethyl cellulose, and a cross-linking agent — borates, antimonates or chromates, a water-soluble organic compound — ethyl alcohol or ethylene glycol, and an additive that regulates the structuring rate — sodium carbonate or organic acid in the following ratio of components, wt. %:
Solid rocket fuels and / or gunpowder and / or explosives with a critical detonation diameter D _kp less than 10 mm - 9.0 - 30
Ammonium nitrate or its mixture with sodium or calcium nitrates - 50.0 - 70.0
Guar gum, polyacrylamide, or carboxymethyl cellulose - 0.02 -1.5
Borates, antimonates or chromates - 0.01 - 1.0
Sodium carbonate or organic acid - 0.02 - 0.1
Ethyl alcohol or ethylene glycol - 0.5 - 5.0
Water - 8.0-15.0
2. An explosive composition according to claim 1, characterized in that it further comprises an energy additive in the form of solid rocket fuels, powders with a critical detonation diameter of D _cr more than 10 mm in an amount of up to 30 wt. %  3. An explosive composition according to claim 1 or 2, characterized in that it contains dispersed air or air-containing materials, for example, glass and organospheres, or aluminum powder.  4. An explosive composition according to claim 1, characterized in that it contains acetic acid as an organic acid.

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