SU260467A1 - METHOD FOR TESTING EXPLOSIVE SUBSTANCES FOR DETONATION STABILITY - Google Patents

Description

The invention relates to the testing of explosives for use in the mining industry.

The known method of testing explosives on the stability of a detonation in a compacted state when blasting in coal-cement blocks does not fully reflect the CONDITIONS for the use of explosives in schacht. In particular, this method does not allow the use of charges of standard sizes, it is not known under what excess pressure the test charge is at the time of the explosion, but the criterion for estimating the detonation ability of a repacked explosive is not the pressure under which the charge was at the time of the explosion, and the distance between the charges in the coal-mining block at which the explosive detonates steadily. The proposed method makes it possible to apply charges of standard dimensions for tests, to produce explosive charges at a given pressure, and as a criterion for estimating detonation ability, i.e., a relative value (distance between charges), and a maximum value of critical overpressure at which the explosive detonates at a rate normal for a given substance.

a closed vessel, is subjected to volumetric pressing of the pressure of compressed air and then blown up under this pressure and record the parameters of the explosion, which characterize

detonation stability, i.e. detonation speed and completeness. Charges consisting of at least three to four cartridges in a normal factory closure are subjected to testing, and explosives intended for continuous hose charges are tested in the same hoses in which they will be used in tanks with a weight not charged. less than 0.9 kg.

The charge of the test explosive will be placed in a solid gas-tight casing (polyethylene hose), air will be pumped out of it and sealed. The charge thus prepared is placed in

A tubular chamber or a bomb with a cutting disc is subjected to an overpressure of air and the pressure is blown up by iodine.

Pressure of compressed air

all sides on the charge, causes its bulk sealing, which closely enough reflects the conditions of the charge seal in the wires.

“And, ionization sensors and a copper tube laid along the charge.

The test of an explosive sample begins with the blasting of over-packed charges outside the chamber outdoors. After establishing the value of the maximum critical pressure at which the sample is still steadily detonating in air, the charge is blown up at the same pressure without removing it from the tubular chamber. In the event of failure and incomplete detonation of charges under the indicated pressure, in each subsequent experiment, the pressure in the chamber is reduced by 10–15 atm until stable charge detonation is obtained. The maximum pressure, at which the charge, while in the chamber, is still steadily detonating, is taken as a criterion for assessing the detonation ability of an explosive.

The proposed method of testing explosives can be applied to assess the detonation ability under conditions of repackaging experimental samples of explosive substances, as well as for control tests of explosives produced by various enterprises with the aim of determining the technological regulation.

Subject invention

A method of testing explosives for detonation stability, including the compaction of a test specimen directly prior to its blasting, characterized in that, in order to increase the accuracy of determination and obtain quantitative data to evaluate the detonation ability of explosives, the charge (sample) of explosive For example, from three to four latros, they are placed in an elastic gas-permeable envelope, air is removed from it and sealed, then the charge is placed in a tubular chamber or bomb with a cutting disc, overpressure and blown up, and about

the detonation ability of an explosive is judged by the maximum value of the critical overpressure, at which the charge detonates completely and at a rate normal for a given substance.