SU433385A1 - THE METHOD OF ANALYSIS OF THREE-COMPONENT PSDS BY ABSORBING GASHA- ^ RAYS - Google Patents

Description

one

The proposed method can be used in the analysis of three-component media. Key media consisting of a liquid and a two-component solid phase. Various types of pulp can be attributed to BAT, E in particular (for example, magnetite sand pulp is ESTNZO + 5) 02+ 3 4- The proposed method can also be used to determine the ash content of coal, when measuring the results of As the E first approximation, the composition of the ash coal can be represented by a mixture of the following three main cohlponentoe C + (iSi Og,

) + (Mp02, Re203) The object can also serve various alloys of the three elements.

A known method for the quantitative analysis of three-component media by absorption of 9G radiation using fluorescent X-rays of one of the components.

The essence of this method is that using the effect of mutual compensation of changes in the intensities of the scattered and

Fluorescent radiation for one of the components of the medium (usually the heaviest), get an unambiguous dependence of the measured integral intensity of the scattered radiation and the content of the desired component in the three-component medium. In other words, the determination of the ratio of two components to a three-component medium by this method becomes possible if the Elimination of one of the components of the medium due to the use of its characteristic radiation is excluded from the measurement results.

However, the mass absorption coefficients of the component, whose influence is eliminated, are different for its fluorescent and scattered radiation, therefore, the mutual compensation of changes in the intensity values of these radiations is not for the E of the range of contents of this component. This significantly improves the accuracy of quantitative analysis of the media components by the considered method. The aim of the invention is. a significant increase in the sensitivity and accuracy of the quantitative analysis of the three-component medium in terms of absorption of radiation using fluorescent X-rays of one of the components. This is achieved by choosing the characteristic radiation of the element as the primary radiation, the next selection of atomic radiation, so that the energy of the scattered radiation is less than the absorption energy of the element, the influence of which is eliminated, and close to the energy of its fluorescent radiation. The relative intensities of fluorescent, scattered and summed radiation can be defined by the following expressions: (1-СЛНс-Сд 3 (i-CAUg ca ts-Qs + «-ts) ai, ВДе; Nt- the intensity of the characteristic X-ray radiation of the element under analysis at d content of Cd in the sample; NI is the same if the test sample consists only of this element; N5 and NS are the corresponding scattered radiation intensities; mass scattering coefficient; n J. i Ajt / tl where t, is the primary, fluorescent and scattered absorption coefficient, and for the filler; i are the same coefficients for the element; k "is the ratio of the sinuses of the ANGLES of fall and selection of radiation. For expression (3) the relation (1 if or. Analysis of expressions (1) - (3) shows that the change in the values of Q: and Q, depending on Cd, will be the same, if the ratio of the mass absorption coefficients of the values M and / C for the filler and the element being analyzed will be equal to t; ts. (4) Compensation for changes in the intensities of scattered and fluorescent radiation for the entire range of septum S. n is full of PS. 1). At the values of the measure ("" "1b" -, L.. - f LCHA XLb ,, And g is observed incomplete incomplete compensation, and E is the first case, a is -t (5 rom. Word (4) f T "" ъ "... .-. A.". .T. {.l -.... fl implies the equality of the values ju. ju. -; which is done if the energy of the fluorescent radiation coincides with the energy of the scattered 1g- radiation, i.e. In practice, this can be done by using as the primary radiation the characteristic radiation of an element, the atomic number of which is one more than the number of the element, the influence of which is eliminated. The energy of the scattered radiation of the source is achieved by varying the magnitude, i.e., by selecting angles of incidence and selecting radiation. When measuring, a krypton proportional counter and analyzer A1YOO-1 are used. The choice of chromium as a heavy component of the pulp (H2O3102-Cr903 ) caused by the possibility of experimental verification of the condition (4) for the case when the energy of the primary radiation only slightly exceeds the absorption energy of the element being analyzed. The smallest difference of 6j and 6k is observed when the primary radiation is the characteristic radiation of the element, followed by another order of number behind the element whose influence is eliminated. | Therefore, in order to emit an isotope of Fe, which is a KowtWa radiation, the (|) compensation effect is best observed for chromium.

At the same time, on one side, we obtain ES (MaiO- i (C2), and on the other side, due to Eozobudeni chromium, only the manganese line, the necessary ratio of intensities, scattering, and fluorescence radiation. With some selection of geometrical conditions of measurements, the intensity value of scattering This radiation practically does not depend on the content of C 20 20, but significantly depends on the amount of water, which allows to take into account the ratio between the liquid and solid phases in the analysis of pulp, regardless of the chemical composition of the solid phase.

DISCLOSURE OF INVENTION

The method of analysis of three-component media by the absorption of gamma rays with the determination of the amount of

The ratio of the media to any two components and the elimination of the effect of the third component due to the use of its fluorescent x-ray radiation, characterized in that, in order to increase the sensitivity and accuracy of the analysis 3a, the characteristic radiation of the element having the number is one more than the element whose effect is eliminated, the choice of the angles of incidence and selection of radiation is produced so that the energy of the scattered radiation used is less than the energy absorbed audio element, which eliminates the effect of dissolved and would be close to the energy is its fluorescent emission, and the obtained results of the quantitative ratio suscht LKAU any two components in the ternary blend.