Russian Technological Journal

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Об авторах

В. К. Битюков
МИРЭА - Российский технологический университет

Битюков Владимир Ксенофонтович - доктор технических наук, профессор, профессор кафедры телекоммуникаций и радиотехники Института радиотехнических и телекоммуникационных систем.

119454, Москва, пр-т Вернадского, д. 78

В. И. Нефедов
МИРЭА - Российский технологический университет

Нефедов Виктор Иванович - доктор технических наук, профессор, заведующий кафедрой телекоммуникаций и радиотехники Института радиотехнических и телекоммуникационных систем.

119454, Москва, пр-т Вернадского, д. 78

Д. С. Симачков
МИРЭА - Российский технологический университет

Симачков Денис Сергеевич - старший преподаватель кафедры телекоммуникаций и радиотехники Института радиотехнических и телекоммуникационных систем.

119454, Москва, пр-т Вернадского, д. 78

Список литературы

1. Bityukov V.K. The diagnosing of radio electronic equipment by the intrinsic infrared radiation. Izvestiya Rossiiskoi akademii nauk. Teoriya i sistemy upravleniya (Bulletin of the Russian Academy of Sciences. Theory and Control Systems). 1991; 2: 227-235. (in Russ.)

2. Underwood R., Gardiner Т., Finlayson М., Bell S., de Podesta M. An improved noncontact thermometer and hygrometer with rapid response. Metrology. 2017; 54(1): S9-S15.

3. Abad B., Borca-Tasciuc D.-A., Martin-Gonzalez M.S. Non-contact methods for thermal properties measurement. Renewable and Sustainable Energy Reviews. 2017; 76(September): 1348-1370.

4. Ionov A.B. Metrological problems of pyrometry: An analysis and the prospects for solving them. Metrologiya (Measurement Techniques). 2013; 56(6): 658-663 (in Russ.).

5. Bityukov VK., Khudak Yu.I., Gusein-zade N.G. Analytical derivation of the Stefan-Boltzmann law for integral radiance from Planck’s law for spectral radiance. Bulletin of the Lebedev Physics Institute. 2018: 45(2): 46-50.

6. Bityukov V.K., Petrov V.A. Noncontact temperature measurement of dielectrics and semiconductors. Part I. Russian Microelectronics. 2004; 33(6): 329-341.

7. Tsvetkov V.B., Seregin VF., Veber A.A., Pyrkov Yu.N., Rusanov S.Ya. Method of the study of optical properties of opaque and translucent materials in a temperature range up to 1600 °C. Trudy instituta obshchey fiziki im. A.M. Prokhorova (Proceedings of the A.M. Prokhorov Institute of General Physics). 2014; 70: 47-58. (in Russ.)

8. Frunze A.V Metrological problems in modern energy pyrometry. Metrologiya (Measurement Techniques). 2018; 1: 42-47.

9. Kovaleva V.V., Averianova D.E. Analysis of background radiation on pyrometer operation. Interexpo Geo-Siberia. 2011: 5(1): 176-178. (in Russ.)

10. Chernysheva N.S., Ionov B.P., Ionov A.B. Experimental setup for studying the effect of dustiness in case of con-tact temperature measurements. Omskiy nauchnyy vestnik (Omsk Scientific Bulletin). 2018; 2(158): 110-115. (in Russ.)

11. Butkovsky A.G., Poskachey A.A., Chubarov E.P. Methods and facilities for automatic temperature measurements through natural radiation of the object with due regard for radiation variations. Avtomatika i telemekhanika (Automation and Remote Control). 1975; 4: 153-163. (in Russ.)

12. Tymkul V.M., Shelkovoy D.S. Employment of three-spectral pyrometer under the influence of thermal background radiation. Izvestiya vysshikh uchebnykh zavedeniy. Priborostroenie (Russian Journal of Instrument Engineering). 2012; 55(9): 67-73. (in Russ.)

13. Firago VA. Determination of the surface temperature of metals in the area of exposure to powerful laser radiation. Collected articles: Quantum Electronics. Proceed. of the XI International Scientific and Technical Conference. 2017. P. 180-183.

14. Karachinov V.A., Toritsin S.B., Karachinov D.V. Investigation of the characteristics of a television pyrometer with a built-in temperature calibrator. Measurement Techniques. 2008. 51(7): 762-766.

15. Sidoryuk O.E. Pyrometry in conditions of intense background radiation. Pribory i tekhnika eksperementa (Instruments and Experimental Techniques). 1995; 38(4): 201-204. (in Russ.)

16. Bityukov VK. The technique for multi-channel signal registration, and the device for its implementation: Pat. 1804592 Russian Federation. № 4915206/10, 02/28/1991; publ. 03/23/1993. (in Russ.)

17. Bityukov V.K., Gorbunov R.A., Maryin S.V., Simachkov D.S., Frunze A.V. Metrological assurance of national pyrometry. Uchebnyi experiment v obrazovanii (Training Experiment in Education). 2018; 1 (85): 53-76. (in Russ.)

18. Smurov I.Yu., Dubenskaya M.A., Zhirnov I.V, Teleshevsky V.I. Determination of the true temperature during selective laser melting of metal powders based on measurements with an infrared camera. Measurement Techniques. 2016; 59(9): 971-974.

19. Bityukov V.K., Zhukov A.N., Simachkov D.S. A method of contactless measurement of surface temperature of radio electronic objects. Rossiyskiy technologicheskiy zhurnal (Russian Technological Journal). 2016; 4(4): 21-32. (in Russ.)

20. Bityukov V.K., Simachkov D.S. Contactless measurement of the surface temperature of objects from their infrared radiation. Measurement Techniques. 2018; 60(10): 1038-1045.

21. Borisov Yu.I., Nefedov V.I., Bityukov V.K., Sigov A.S. Metrology, Standardization and Certification. Moscow: Forum Publ., 2009. 338 p. (in Russ.)

22. Bityukov VK. On one method of accounting for background radiation in contactless thermal monitoring. Izvestiya vysshikh uchebnykh zavedeniy. Priborostroenie (Russian Journal of Instrument Engineering). 1991; 34(11): 90-96. (in Russ.)

23. Belozerov A.F., Omelaev A.I., Filippov VL. Modern directions in the use of IR radiometers and thermal viewers in scientific research and technology. Opticheskii zhurnal (Journal of Optical Technology). 1998; 65(6): 16-21. (in Russ.)

24. Frunze A.V About new ways of pyrometry development. Pribory (Instruments). 2012; 7(145): 54-59. (in Russ.)

25. Frunze A.A., Frunze A.V. On inaccuracies of measurements of real objects temperature by energy pyrometers. Datchiki i sistemy (Sensors and Systems). 2014: 3(178): 41-43. (in Russ.)

26. Frunze A.V. Metrological problems of modern spectral pyrometry. Metrologiya (Measurement Techniques). 2018; 2: 35-48.

Дополнительные файлы

1. Fig. 1. The scheme of a non-contact method of measuring the surface temperature of an object using a standard radiator and a standard object.
Тип Research Instrument
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Для цитирования:

Битюков В.К., Нефедов В.И., Симачков Д.С. БЕСКОНТАКТНЫЙ МЕТОД ИЗМЕРЕНИЯ ТЕМПЕРАТУРЫ ПОВЕРХНОСТИ ОБЪЕКТА. Russian Technological Journal. 2019;7(2):5-17.

For citation:

Bityukov V.K., Nefedov V.I., Simachkov D.S. NON-CONTACT METHOD OF MEASURING SURFACE TEMPERATURE. Russian Technological Journal. 2019;7(2):5-17.

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