RU2005101380A - MARKING ADDITIVE FOR EXPLOSIVE SUBSTANCE, METHOD FOR PREPARING IT, METHOD FOR DETERMINING ORIGIN OF EXPLOSIVE SUBSTANCE AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (8)

1. An additive in an explosive containing a marking agent containing at least one rare element of the periodic system, foreign to the explosive and retaining its properties under explosion conditions, characterized in that it further contains an encapsulating substance for microencapsulation of the marking substance in an explosion condition, wherein the substance forms with marking a homogeneous system. 2. The additive according to claim 1, characterized in that aluminum is used as the encapsulating substance. 3. The additive according to claim 1, characterized in that lanthanides are used as the marking substance. 4. The additive according to claim 1, characterized in that aluminum is used as the encapsulating substance, and lanthanides selected from the group: lanthanum and / or samarium and / or cerium are used as the marking substance, with the ratio of the mass fractions of lanthanides to aluminum: 1 · 10 ^-4 -5 · 10 ^-2 . 5. The method of preparing an additive in an explosive according to claim 4, characterized in that first lanthanides and aluminum are fused, and the resulting alloy is ground to a fine powder with particles, the size of which is 0.8-1.3 of the particle size of the explosive. 6. A method of applying an additive to an explosive, including introducing an additive into an explosive in a detectable amount and subsequently detecting it, characterized in that the additive is first sampled and the spectral characteristics of the plasma radiation intensity of the chemical elements of the additive marking agent are determined by means of spark laser radiation, then it is determined the ratio of the integral value of the radiation intensity of each individual chemical element that is part of the brand substance, in the contours of the spectral lines of radiation, to the total value of the radiation intensity of all chemical elements that make up the marking substance, they compose a code in the form of an element-by-element sequence of lines according to the obtained relations, and identify the additive, explosive and the manufacturer of the explosive, in which introduced an additive for its subsequent detection, and subsequent detection is carried out by comparing the spectral characteristics of the explosion products with a code and then the manufacturer of the explosive is identified. 7. The method according to claim 5, characterized in that the explosive code is in the form of a bar code in which the stroke width is directly proportional to the amplitude of the relative integrated intensities in the contours of the spectral lines of radiation of the marking substance, and the distance between the strokes is equal to the difference in wavelengths the centers of the contours of the corresponding spectral lines. 8. Installation for determining microimpurities in an additive in an explosive containing a plasma generator, a spectrophotometric analyzer of a radiation spectrum and a personal computer connected to a plasma generator and a spectrophotometric analyzer of a radiation spectrum, characterized in that it contains a pulsed plasma generator, consisting of a pulsed laser and located longitudinal relative to the laser beam of the spark gap, electronically connected to a personal computer for synchronization of the spark and laser the emitter when the ratio of the duration of the laser radiation to the delay time of the longitudinal spark discharge relative to the beginning of the laser pulse in the range of 0.9-5.0.