SU980532A1 - Method for calibrating dosimeters and radiometers - Google Patents

Abstract

THE METHOD OF GRADUATING DOSIMETERS AND RADESHETERS based on establishing the correspondence between the measured value and the instrument readings in one part of the measurement range and transferring this value to other parts of the range using a set of ionizing radiation sources that are only , in order to reduce the number of sources needed to transfer the measured value, eliminate the need for their certification and reduce the requirements for the characteristics of the sources, two sources of ionizing radiation are used whose readings at selected distances from the detector with simultaneous irradiation should correspond to the end of the measurement range, establish one of the sources so that the reading from it is within the graduated part of the scale, fix the source position and instrument reading, remove the specified source, establish the second source so that the readings from it are also within the graduated part of the specified scale, fix the instrument reading, set the first source to its former location, at this The meter reading corresponds to the sum of readings from each source separately, the sources are removed, the second source is set so that the reading from it is within the newly graduated part of the range, the first source is set to its previous position, the instrument reading corresponds to the sum of readings, the position of the second the source relative to the detector in the same way as the CO calibrates the entire scale, set the first source to such a distance at which the reading from about. on a graduated scale, it can be transferred by O1 to the next scale, the indication is fixed, the device is switched to a graduated scale, and a fixed value is set on it.

Description

The invention relates to dermLam instrument making and can be used in the calibration, calibration and adjustment of dosimetric and radiometric equipment in calibration laboratories, in test laboratories and in factories that produce the specified apparatus. Usually, dosimeters and radiometers are calibrated using exemplary measuring instruments: exemplary sources of ionizing radiation and exemplary instruments 1 j. This requires a large number of exemplary measuring instruments and uses sources of high activity. The closest technical solution to the invention is a method of calibrating dosimeters and radiometers, based on establishing correspondence between the measured value and instrument readings in one part of the measuring range and transferring this value to other parts of the range using a set of ionizing radiation sources 2. The main drawback This method is the need to use a significant amount of identical sources of ionizing radiation with a known ratio of radiation characteristics. ISTIC as thus, simply can not be made absolutely identical sources and to accurately determine the ratio of their radioTsIONN1YaH characteristics. The aim of the invention is to reduce the number of sources required to transfer the measured value, eliminate the need for their certification and reduce the requirements for source characteristics by separately and simultaneously irradiating the detector with sources. The goal is achieved by the fact that in the method based on establishing the correspondence between the measured value and instrument readings in one part of the measurement range and transferring this value to other parts of the range using ionizing radiation sources, the unit of measurement is produced using two sources of ionizing radiation. radiation by irradiating the detector separately with each source and simultaneously with two sources, the intensity of the irradiation varies by changing the distance between the detector and the sources. To do this, use two sources of ionizing radiation, whose readings at selected distances from the detector with 4 simultaneous exposures should correspond to the end of the measurement range, establish one of the sources so that the reading from it is within the graduated part of the scale, fix the position of the source and the instrument reading , remove the specified source, establish the second source so that the reading from this source is also within the graduated part of the specified scale, record the reading p The device sets the first source to its former position, the instrument reading at the same time should be equal to the sum of readings from each source separately, changing the position of the second source relative to the detector in a similar way calibrates the whole instrument scale, sets one of the sources so that the reading from it on the graduated scale corresponds to the value that can be transferred to the next scale, fix this reading, switch the device to the specified scale and set a fixed value on it, give e process is repeated until all until otgraduiruyut shkalypribora. This method was tested on neutron radiometers and gamma dosimeters. These instruments are first calibrated in the usual way - direct, using reference sources, and then the calibration is checked by the proposed method. After graduation in a direct way, without changing the sensitivity of the instrument, using one of the two sources, by changing the distance between the detector and the source, set the reading on the middle scale corresponding to 30% of the upper value of the N scale and fix the position of the source and instrument. The first source is removed and the second source is set so that the readings from the second source Nj correspond approximately to the t / 3 of the scale as well. The first source is installed in its original position, the instrument reading corresponds. Sources are removed. Using the device's Volt source, set the instrument scale corresponding to I98053 approximately to the previous reading from two sources N. Set the first source to its original position, the instrument reading corresponds to N, + N-. Switch the device to the next scale, on which the reading of the device also corresponds to Nj + N. The process is then repeated until all the fals are checked. The test showed that the results of grading in both ways within the error coincide. When testing gamma dosimeters for transferring a unit of measurement, beta and not gamma sources are used, which significantly simplifies the calibration process, because protection from beta radiation is simpler than from gamma radiation. The proposed method will minimize the number of sources required for the transfer of 1 unit of measurement, eliminate the need for certification and significantly reduce the requirements for the characteristics of sources. The economic effect from the use of the proposed method can be tens of thousands of rubles per enterprise.

Claims (1)

METHOD FOR GRADING DOSIMETERS AND RADIOMETERS, based on establishing a correspondence between the measured value and the readings of the device in one part of the measuring range and transferring this value to other parts of the range using a set of ionizing radiation sources, characterized in that, in order to reduce the number of sources required for transfer the measured value, eliminating the need for their certification and reducing the requirements for the characteristics of the sources, use two sources of ionizing radiation, indications which at selected distances from the detector with simultaneous irradiation should correspond to the end of the measuring range, set one of the sources so that the reading from it is within the graduated part of the scale, fix the position of the source and the reading of the device, delete the specified source, set the second source so that the readings from it was also within the graduated part of the indicated scale, the reading of the device was recorded, the first source was set to its previous position, while the reading of the device and corresponds to the sum of the readings from each source separately, remove the sources, set the second source so that g the readings from it were before. | In the newly calibrated part of the range, set the first source to the previous position, the reading of the device corresponds to the sum of the readings, changing the position of the second source relative to the detector in a similar way, graduate the entire scale, set the first source to such a distance that the reading from it on the graduated scale can be moved to the next scale, record this indication, switch the device to a graduated scale and set a fixed value on it.