SU1073649A1 - Method of measuring filler concentartion in paper sheet - Google Patents

Abstract

A METHOD FOR MEASURING THE FILLER CONCENTRATION IN THE PAPER PATCH, concluded with irradiating it with gamma rays or X-rays and registering the flux of the characteristic X-rays of the filler element, which is only due to the fact that, in order to improve the accuracy of the measurement, two streams of characteristic X-rays are recorded simultaneously, two streams of characteristic X-rays are recorded at the same time, in order to improve the measurement accuracy, two streams of characteristic X-rays are recorded at the same time, two streams of X-rays are recorded at the same time, in order to improve the measurement accuracy, two streams of characteristic X-rays are recorded simultaneously by two X-rays of the x-rays. the filler, emanating from the paper web at an angle to the surface of the web, is equal to 90, and at an angle close to O, by two detectors located at the same distance from the area of the blunt web, irradiated with primary radiation (L radiation, and the concentration of the filler is judged by the ratio of the registered radiation fluxes. CO a 4 with

Description

The invention relates to rectgen fluorescent analysis of a substance in the field of technological control of parameters of a paper web, which is a two-component medium (cellulose and filler). The known method of determining the concentration of elements in a substance consists in irradiating a radioactive source of the test substance with radiation, registering the characteristic radiation fluxes of the detected element and scattered radiation, and calculating the concentration of the detected element from the ratio of the fluxes of these radiations. I The main disadvantage of this method is concentration of filler in paper is that when comparing the results of measurements of radiation fluxes of various energies is impossible completely eliminate the effect of varying the air gap of parameters (pressure temperature and composition) between the test material and the detectors on the measurement results, particularly when an existing member venno determining the concentration of light elements such as titanium, and Enachitelno reduces the accuracy of measurements. Closest to the proposed method for determining the filler concentration in a paper web, consisting in irradiating it with gamma or X-ray radiation and detecting the characteristic X-ray radiation of a filler element 21 by a flux detector. The absolute intensity measurement of the characteristic radiation has a number of disadvantages. and a change in the intensity of the radioactive source, a change in temperature between, the test material and the detector iJ other. The aim of the invention is to improve the measurement accuracy of the "Post-aelec. H. The goal is achieved by the fact that according to the method of measuring the concentration of the filler in the paper web, which involves irradiating its gamma or X-ray radiation and registering the flux of the characteristic X-ray radiation filler element, register simultaneously two streams of the characteristic X-ray radiation of the filler element, you;} containing paper from paper hyulote at an angle to the surface of the web, equal and angled, b izkim to D, two detectors located at the same distance from the web at the region .buma.zhnogo irradiated by primary radiation, but the concentration of filler is judged by the value of the ratio for the radiation flux. The drawing shows the measurement scheme according to the proposed method. The circuit contains the radiation source 1, the material under study 2, the radiation detectors 3, 4, filters 5, b transmitting the characteristic radiation of the element being detected. Gamma radiation from the radiation source 1, falling on the material under study 2, excites the characteristic radiation of the elements in the paper web. The thickness of the paper web is greater than the thickness of the total absorption of the primary gamma radiation. Detectors 3 and 4 register the characteristic radiation of a detectable element emanating from the area of the paper web irradiated by the primary radiation. At the same time, the ratio of the signals due to the characteristic radiation fluxes detected by the detectors 3 and 4 is measured, from which the concentration of the detected element, the filler in the paper web, is determined. PRI me R. A ii-ia 55 pg nuclide radiation source excites the characteristic radiation of titanium 3 on a paper web with TU- filler; with an average concentration of T lO equal to 10%. The thickness of the paper web is more than 3 mm, which exceeds the value of the total absorption of the primary radiation, about 2.4 mm. Detectors 3 and 4 are installed at a distance of 30 mm from the area of the paper web where the primary radiation is directed. The detector 3 is arranged in such a way that it detects the characteristic radiation emanating from the web at an angle of 90, Detector 4 is positioned so that it detects the radiation emitted at an angle of 18 ° to the plane of the web. Collimators are installed in front of the detectors, which cut off the radiation emerging from the web at different angles. The ratio of signals from detectors 3 and 4 is measured. This ratio depends on the concentration of titanium dioxide in the paper web, for example, when the concentration of titanium dioxide is 10%, this ratio is equal to 1.955. The dependence of the concentration of the filler C on the ratio of the J-, / 12 fluxes of the characteristic radiation of the detectable element, detected by the detectors 3 and 4 at sin V 1, has the form

Claims (1)

A METHOD FOR MEASURING A FILLER CONCENTRATION IN A PAPER CABIN, consisting in irradiating its gamma ray with X-ray radiation and detecting a characteristic x-ray flux of a filler element with a detector, characterized in that, in order to improve the measurement accuracy, two streams of characteristic x-ray radiation of the filler element output from the paper are simultaneously recorded. web at an angle to the surface of the web, equal to 90 °, and at an angle close to 0 °, two detectors located equally the maximum distance from the area of the paper fabric irradiated with primary radiation, and the filler concentration is judged by the ratio of the recorded radiation fluxes. • ^ 1 s