SU989952A1 - Method of nondestructive quality control of articles - Google Patents

Description

keeping the specified component in each layer using a computer. The disadvantage of this method is that when calculating in a computer it does not take into account the distribution of material by density in the controlled layer, which significantly affects the accuracy of determining the content of the dividing components. The closest technical solution is the method of nondestructive testing of objects consisting in that an object is scanned with an x-ray or gamma-ray beam over a given set of trajectories lying in the same plane, measure the intensity of the transmitted radiation, measure rm the intensity of the fluorescent radiation of a given component of the object, according to the intensity measurement signals of the radiation passing through the object, restores the distribution pattern of the material density of the monitored object in the specified plane from the intensity measurement signals of the fluorescent radiation of a given component of the object and the resulting density distribution restores picture of distribution of the specified component in the plane of the object under control. A disadvantage of the known technical solution is that when controlling the distribution of the radioactive component, errors arise due to the inconsistency of the spectral ranges of the pattern of the distribution of the density and the pattern of the distribution of the radioactive component, as well as the effect of the self-radiation of the specified component. The purpose of the invention is to improve the accuracy in determining the distribution of radioactive material in a controlled object. This is achieved by the fact that, in a method of non-destructive testing of objects, that the object is mowned by a beam of x-ray or gamma radiation on a given set of trajectories the plane, measure the intestinalities of the radiation transmitted through the object and the radiation of a given component of the object, using computer signals from the intensity measurement signals of the transmitted object I restore the picture of the density distribution of the material of the object being monitored in the specified plane, and the picture of the distribution of the specified component in the plane of the object being monitored is determined by the signals of the measured component of the object and the resulting density distribution pattern; for each path, two measurements are made with and without beam rentgenovskogoili gamma radiation form raznost- measured signals and for reducing the density distribution pattern obtained using the difference. The method is carried out as follows. A facility for non-destructive testing of objects containing a radioactive component, for example, rod fuel elements, may contain a set of detectors for registering its own radiation of the monitored component of the fuel element from different directions, and a collimated radiation source and a collimated detector located at another level along the height of the fuel element. The TVEL is moved relative to the two indicated groups of gauges in such a way that the subsequent measurement of one of the groups belongs to the same layer of the object that the other group measured during the previous measurement. Radiation detection by both groups is performed in the spectrometric mode, and the spectrometric registration ranges for both groups are close or coincide. This makes it possible to eliminate errors in determining the distribution of the absorption of the own radiation of the monitored component that would occur if the energy ranges of the registration of the own radiation do not match and the computer tomogram is constructed due to energy Koadrr dependencies of absorbance values. Group of detectors measuring their own radiation controlled components, may contain 2-4 symmetrically located around the fuel rods of the detectors. Registration of self-radiation is carried out when the lure is rotated around its own axis. At the same time, a measurement is taken on a different layer in different directions. through -dv x-ray beams. Moreover, since the tomographic scanning system detector registers simultaneously. and the intensity of the transmitted beam and the intensity of its own radiation, then for each trajectory it is necessary to make two measurements - with the source and source turned on and off, the measurement value should be formed as the difference between the results of these measurements, which corresponds to the absorption of the primary source beam and can be used when building tomograms. The tomographic scanning system is performed in a known manner, and for constructing a tomogram in a computer, one of the known methods is used. Based on the tomogram data on the distribution of the absorption coefficient (or material density in the test layer) in a computer, the problem of obtaining The picture of the distribution of the monitored component is solved taking into account the true density distribution in the layer under study and according to the measurement results in the same intensity layer of the intrinsic radiation of the specified component. Naturally, the signal obtained by the detectors, a topographic system with the radiation source off, can be used to build a picture of the distribution of the radioactive component. The described method allows to increase the accuracy of non-destructive testing of objects containing a radioactive component

Claims (1)

The described method allows to improve the accuracy of non-destructive testing of objects containing a radioactive component ", Editor M. Lenin Tehred L. Oliynyk , Кор “Corrector. Shekmar Order 770 Circulation 397 Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab. 4/5 Production and publishing plant "Patent", Uzhgorod, st. Gagarin, 101