SU330381A1 - METHOD OF X-RAY AGENT FLUORESCENT ANALYSIS OF SOLUTIONS AND SUSPENSIONS - Google Patents

Description

The invention relates to the field of physical methods of analysis, in particular, to x-ray fluorescent methods, widely used in the colored QI ferrous metallurgy for ore beneficiation and control contained; chemical elements.

The most common method of X-ray spectral fluorescence analysis is the B1 standard standard method as the most rapid. However, this method is not accurate enough. In order to increase the accuracy, the scattered radiation is measured on the sample or, separately, the radiation intensity of the analytical line of the element being determined from the sample and after the passage of the sample is determined, which makes it possible to take into account the mass absorption coefficient, the samples. The disadvantage of this method is the length and complexity of taking into account the mass absorption coefficient, since at first this tube is placed under a beam of critical x-rays, the intensity of the analytic line of the element being measured is measured, then the sample is placed on the path of the analytical line and measured after Denis through trial. From the intensity and the known mass and area of the sample, the mass absorption coefficient is calculated and corrected to increase the accuracy of the determination of the chemical element content.

According to the proposed method, a single-time measurement of the intensity of the analytical fluorescent radiation line npii using the main spectrometric channel and an electronic counting device measures the "tennotation of the primary X-ray beam of a certain wavelength passed through This is done using an additional spectral channel located on the opposite side of the sample being analyzed. The wavelength of the radiation passing through the sample is amplified so that, with a change in the mass absorption coefficient of the sample, it varies inversely with the intensity of the radiation that has passed through the sample. Such an implementation of the method provides higher accuracy and shortened; 1e anal. Time.

The drawing shows a diagram of an apparatus for carrying out the proposed method, where: / is an x-ray detector; 2- output plate coll.mator; 3 - crystal analyzer; 4 - entrance plate collimator; 5 - cylinder-holder, installed perpendicular to the plane of the Rowland circle; 6 - crystal analyzer; 7 - Rowland's focal circle; 8 - detector slit, mounted on the focal circle of Rowland; 9 is an X-ray detector; 10 - reihepovoka t).

Nodes 6-10 form the main spectrometric channel, recording the analytical line of the element under study. The knots -4 form an additional channel-measuring seismometer, allowing the X-ray tube 10 of a certain WAVE length to be recorded, passing through the channel from a sample that is placed in the sample-cylinder 5.

P-m etch and B & I Method X-ray fluorescence spectroscopy analysis of solutions and suspensions, which consists in measuring and recording the intensity of analytical livia of the fluorescent radiation of a detectable element, characterized in that. In order to improve accuracy and shorten the a-time, simultaneously with measuring the fluorescent radiation line of the element being detected, the intensity of the primary x-ray radiation of a certain length: the wave measured through the sample being analyzed is measured, and the actual content of the anal is determined from the measured intensity. of the item