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Modern Russian mass spectrometers for the atomic industry |
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| Authors: | N. R. Kuzelev A. S. Shtan’ G. I. Kiryanov L. N. Gall’ A. P. Knutarev G. S. Solov’ev A. V. Saprygin V. A. Kalashnikov D. V. Novikov A. B. Maleev V. A. Borodin V. G. Gorbunov Zh. A. Savina A. P. Ivanov |
| Affiliation: | 1. Open Society Research Institute of Technical Physics and Automation, Russia, Varshavskoe shosse 46, Moscow, 115230, Russia 2. Institute of Analytical Instrument Making, Russian Academy of Sciences, Rizhskii pr. 26, St. Petersburg, 190103, Russia 3. Urals Electrochemical Combine Joint-Stock Company, ul. Dzerzhinskogo 2, Novouralsk, 624130, Russia 4. Experimental Plant of Scientific Instrument Making, Russian Academy of Sciences, pr. Academika Semenova, 9, Chernogolovka, Moscow oblast, 142432, Russia 5. Special Design Bureau Spektron-Analit Joint-Stock Company, Rizhskii pr. 26, St. Petersburg, 190103, Russia |
| Abstract: | Product quality control within the nuclear fuel cycle is a subject of special concern in Russia nowadays. Earlier, mass spectrometers of foreign production were commonly used for elemental and isotope analysis of samples. Currently, a series of domestic mass spectrometers MTI-350 has been developed and their production has been organized in Russia. The series comprises an automated MTI-350G mass spectrometer for the isotope analysis of uranium hexafluoride; thermal ionization MTI-350T mass spectrometer for the isotope analysis of uranium, plutonium, and mixed oxide (MOX) fuels; an MTI-350GS mass spectrometer for controlling the production of uranium hexafluoride; and an MTI-350GP mass spectrometer for the determination of the impurity concentration in uranium hexafluoride. The article considers operation principles, analytical characteristics, and the advantages of the above mass spectrometers. |
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