RU2610594C1 - Explosive substance (versions) - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: invention relates to industrial explosive substances (ES) used in national economy. Explosive substance contains mononitrotoluene or a mixture of mononitrotoluene and dinitrotoluene and trinitrotoluene in the flaked or granulated form. Content of mononitrotoluene or its mixture with dinitrotoluene in the substance makes 0.1–4.0 wt%. As mononitrotoluene it contains para-mononitrotoluene (p-MNT), or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or their mixture.

EFFECT: due to containing mononitrotoluene or a mixture of mononitrotoluene and dinitrotoluene reduced is fragility of trinitrotoluene and its dusting, namely in precipitation of the ES from bags the trinitrotoluene dust concentration in the workplace air is less than 0,49 mg/m³.

6 cl, 1 tbl

Description

The invention relates to blasting, and in particular to industrial explosives (BB) used in the national economy.

Four groups of explosives are known [Dobrynin A.A. Explosives. Chemistry. Compositions. Security. - M .: Publishing House of Zhukovsky Academy of Sciences, 2014, p. 26, 11-14 lines above]:

Group I - initiating explosives;

Group II blasting explosives;

Group III propelling explosives;

Group IV - pyrotechnic compositions.

Initiating explosives are highly sensitive to external influences. It is applied in small volumes.

Blasting explosives are used in cases where it is necessary to provide a predominantly crushing or explosive action of the explosion. TNT is a blasting explosive. The main advantage of TNT is that it has a relatively low sensitivity to mechanical stress.

Closest to the claimed invention in terms of essential features (prototype) is the TNT explosive [GOST 4117-78. TNT for industrial explosives. Technical condition]. The appearance of TNT according to GOST 4117-78 is a flake [Ibid., C. 2. Table 1]. Flakes have a mass and heat transfer surface. However, TNT flakes significantly dust. When creating the invention, the task was to obtain explosives, which are less dusty than TNT according to GOST 4117-78.

An explosive substance (prototype), consisting of a mechanical mixture, is less dusty than TNT flakes. However, dusting is still substantial.

When creating the invention, the task was to obtain explosives, which are less dusty than the prototype.

To achieve this technical result, an explosive (Option 1), consisting of TNT, additionally contains mononitrotoluene in the following ratio of components, wt. %:

mononitrotoluene 0.1-4.0 TNT the rest is up to 100

Mononitrotoluene contains para-mononitrotoluene (p-MNT), or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or mixtures thereof.

EXPLOSIVES contains trotyl in flaky or granular form.

To reduce TNT dusting, mononitrotoluene is added to the proposed explosive. Moreover, ortho-mononitrotoluene, when the temperature is above minus 3.17 ° С, and meta-nitrotoluene, when the temperature is higher than 16.1 ° С (solidification temperatures of the indicated mononitrotoluene [Orlova E.Yu. Chemistry and technology of explosive substances. - 3- ed. revised - L .: Chemistry, 1981, p. 85]), are in a molten state, which is a significant reason for reducing dusting of flakes and granules. The decrease in TNT dusting occurs due to the content (dissolution) of mononitrotoluene in TNT, causing a decrease in its fragility.

Therefore, the proposed explosives (Option 1) surpasses the prototype, in which TNT dust is formed in an amount equal to 0.49 mg / m ³ and the task is achieved: during the eruption of the explosives from the bag into the funnel, dusting is less than that of the prototype, and it varies from 0.11 to 0.48 mg / m ³ .

When creating the following proposed invention, a similar task was posed: to obtain an explosive, when emptying from bags into a funnel, the concentration of TNT dust in the air of the working area should be less than 0.49 mg / m ³ . To achieve this technical result, an explosive (Option 2), consisting of TNT, additionally contains mononitrotoluene in the following ratio, wt. %:

mononitrotoluene 0.1-4.0 TNT the rest is up to 100

Mononitrotoluene contains para-mononitrotoluene (p-MNT), or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or mixtures thereof.

The explosive contains TNT flakes or granulated TNT as TNT.

An explosive substance as granulated TNT contains granulotol of grades A, B or M. Granulotol of grades A and B is produced according to GOST 25857-83. Granulotol brand M is produced according to TU 7276-045-07511608-2001.

To reduce TNT dusting, mononitrotoluene is added to the proposed explosive. Para-mononitrotoluene is a less fragile product than TNT. Being on the surface of TNT flakes or granulated TNT, p-MNT reduces the dusting of more fragile TNT.

EXPLOSIVES contains trotyl in flaky or granular form.

To reduce TNT dusting, a mixture of mononitrotoluene and dinitrotoluene is added to the proposed explosive. Moreover, ortho-mononitrotoluene, when the temperature is above minus 3.17 ° С, and meta-nitrotoluene, when the temperature is higher than 16.1 ° С (solidification temperatures of the indicated mononitrotoluene [Orlova E.Yu. Chemistry and technology of explosive substances. - 3- ed. revised - L .: Chemistry, 1981, p. 85]), are in a molten state, which is a significant reason for reducing dusting of flakes and granules.

The decrease in TNT dusting occurs due to the content (dissolution) of mononitrotoluene and dinitrotoluene in TNT, causing a decrease in its fragility.

The table shows the explosives, the numerical values of the concentration of TNT dust in the air of the working zone, formed during the rash of explosives from the bag into the funnel.

As can be seen from the table, when eruptions of bags of explosives flakes (prototype), the concentration of TNT dust in the air of the working area reaches at least 0.49 mg / m ³ , and when rashes - BB according to the second variant, the concentration of TNT dust is lower than that of the prototype, and varies from 0.08 to 0.48 mg / m ³ .

Consequently, the proposed explosives (Embodiment 2) exceeds the prototype in which the dust is formed in an amount of not less than 0.49 mg / m ^3, the task set is reached and: during explosive eruptions from the bag to the funnel dusting TNT less than the prototype, and it varies from 0.08 to 0.48 mg / m ³ .

To achieve this technical result, an explosive substance (Option 3), consisting of TNT, additionally contains a mixture of mononitrotoluene and dinitrotoluene in the following ratio, wt. %:

a mixture of mononitrotoluene and dinitrotoluene 0.1-4.0 TNT the rest is up to 100

Mononitrotoluene contains para-mononitrotoluene (p-MNT), or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or mixtures thereof.

The explosive contains TNT flakes or granulated TNT as TNT.

An explosive substance as granulated TNT contains granulotol of grades A, B and M. Granulotol of grades A and B is produced according to GOST 25857-83. Granulotol brand M is produced according to TU 7276-045-07511608-2001.

To reduce TNT dusting, a mixture of mononitrotoluene and dinitrotoluene is added to the proposed explosive. Para-mononitrotoluene and dinitrotoluene products are less fragile than TNT. Being on the surface of TNT flakes or granulated TNT, p-MNT and dinitrotoluene reduce the dusting of more fragile TNT. In this case, ortho-mononitrotoluene, when the temperature is above minus 3.17 ° C, and meta-nitrotoluene, when the temperature is above 16.1 ° C (solidification temperatures of these mononitrotoluenes [Orlova E.Yu. Chemistry and technology of explosive explosives. - 3- ed. revised - L .: Chemistry, 1981, p. 85]), are in a molten state, which is a significant reason for reducing the dusting of flakes and TNT granules.

An additional decrease in TNT dusting occurs upon dissolution of mononitrotoluene and dinitrotoluene in TNT, causing a decrease in its fragility.

The table shows the explosives, the numerical values of the concentration of TNT dust in the air of the working zone, formed during the rash of explosives from the bag into the funnel.

As can be seen from the table, when the TNT flakes are emptied from the bags (prototype), the concentration of TNT dust in the air of the working zone reaches a value of 0.49 mg / m ³ , and when the eruption is BB, according to the third variant, the TNT dust concentration is lower than that of the prototype, and varies from 0.08 to 0.48 mg / m ³ .

Therefore, the proposed explosives (Option 3) surpasses the prototype, in which dust is formed in an amount equal to 0.49 mg / m ³ , and the task is achieved: during the eruption of the explosives from the bag into the funnel, TNT dusting is less than that of the prototype, and it varies from 0.08 to 0.48 mg / m ³ .

Claims (8)

1. An explosive substance consisting of TNT, characterized in that it additionally contains mononitrotoluene in the following ratio of components, wt. %: mononitrotoluene 0.1-4.0 TNT the rest is up to 100 2. An explosive substance according to claim 1, characterized in that the mononitrotoluene contains para-mononitrotoluene (p-MNT) or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or mixtures thereof. 3. An explosive substance according to claim 1, characterized in that it contains TNT in a flaky or granular form. 4. An explosive substance consisting of TNT, characterized in that it further comprises a mixture of mononitrotoluene and dinitrotoluene in the following ratio of components, wt. %: a mixture of mononitrotoluene and dinitrotoluene 0.1-4.0 TNT the rest is up to 100 5. Explosive according to claim 4, characterized in that the mononitrotoluene contains para-mononitrotoluene (p-MNT) or ortho-mononitrotoluene (o-MNT), or meta-mononitrotoluene (m-MNT), or mixtures thereof. 6. Explosive according to claim 4, characterized in that it contains TNT in a flaky or granular form.