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Токарев, Антон Николаевич

Организационные подразделения

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Институт физико-техничеcких интеллектуальных систем

Институт физико-технических интеллектуальных систем впервые в стране обеспечивает комплексную подготовку специалистов по созданию киберфизических устройств и систем самого различного назначения – основного вида технических устройств середины 21 века. ИФТИС реализует «дуальную» модель образования, в рамках которой направляет студентов на стажировку и выпускников для трудоустройства на передовые предприятия, занятые созданием инновационных киберфизических продуктов, в первую очередь, на предприятия ГК «Росатом». Основным индустриальным партнером ИФТИС является ведущее предприятие ГК «Росатом» — ФГУП «ВНИИА им. Н.Л. Духова».

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Токарев

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Антон Николаевич

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Information measuring system for research of anisotropy of conductive materials
(2019) Baryshev, G.; Tokarev, A.; Berestov, A.; Барышев, Геннадий Константинович; Токарев, Антон Николаевич; Берестов, Александр Васильевич
The paper devotes a new information measuring system and results of its design for studying the anisotropy of conducting materials of various functional purposes, designed at the Department of Engineering Science and Technology of National Research Nuclear University MEPhI. The system allows to obtain the high rate of anisotropy assessment, ensuring the possibility of anisotropy assessment of the properties of materials by the volume of the sample or product under investigation during their manufacture or operation. (C) 2019 Elsevier Ltd. All rights reserved.
Только метаданные
Automated Smart Quality Control of Commercially Manufactured Peltier Elements
(2020) Yudin, I. A.; Tokarev, A. N.; Bozhko, Y. V.; Юдин, Игорь Андреевич; Токарев, Антон Николаевич; Божко, Юрий Валентинович
© Published under licence by IOP Publishing Ltd.In contemporary technological development there is a tendency to miniaturize and improve the efficiency of modern devices and information measuring systems, this trend affects not only aspects of electronic instrumentation, mechanical systems, mechatronics systems and microelectromechanics, but also systems for transfer and transformation of heat energy, accumulation and redistribution of heat fluxes, and miniaturization of cooling systems and improving the design of heat pumps. One of the contemporary ways of development of structure of heat transfer systems and transformation of thermal energy are elements based on the Peltier effect. We present the automated smart quality control system of commercially manufactured Peltier elements designed at the Department of Engineering Science and Technology of National Research Nuclear University MEPhI. The technical characteristics of our system and its functionality guarantee control and measurement of parameters of commercially available Peltier elements, production and interoperability control in the production of the elements as an electronic component base; production of precision equipment that requires the application of systems to maintain accurate temperature conditions, such as thermal imagers, laser projectors, mobile computing systems.
Только метаданные
General method of research of electrophysical properties of nanostructured composites
(2019) Sergeevna, K. A.; Konstantinovich, B.; Berestov, A. V.; Nikolaevich, T. A.; Olegovna, C. P.; Барышев, Геннадий Константинович; Берестов, Александр Васильевич; Токарев, Антон Николаевич; Черных, Полина Олеговна
© 2019 Trans Tech Publications Ltd, Switzerland.The paper presents an information model and a general methodology for studying the electrophysical properties of materials and products from nanostructured composites. The information model of the original methodology for the standard process of experimental measurement and study of the electrophysical properties of composites comprehensively takes into account the characteristics associated with their industrial production (quality assurance systems, safety, certification, etc.) in order to develop experimental measurement methods and new standards, including standards of enterprises, methodological guidelines, work programs for the development of high-tech production advanced materials and products.
Только метаданные
Application of Information Measuring Systems for Development of Engineering Skills for Cyber-Physical Education
(2021) Baryshev, G.; Klimov, V.; Berestov, A.; Tokarev, A.; Petrenko, V.; Барышев, Геннадий Константинович; Климов, Валентин Вячеславович; Берестов, Александр Васильевич; Токарев, Антон Николаевич; Петренко, Валерия Валерьевна
© 2021, The Author(s), under exclusive license to Springer Nature Switzerland AG.The new industrial revolution opening the way to the digital world requires further development of engineering education. Future engineers should obtain skills in the area of development of cyber physical (intellectual) systems. In National Research Nuclear University MEPhI we have examples of implementation of new engineering courses and programs for cyber physical education. In this paper we discuss the problems and results of application of information measuring systems which main purpose is for research and development needs, for educational tasks.
Только метаданные
Application of VR instruments in preprofessional education in the area of mechatronics and robotics in a nuclear research university
(2021) Tokarev, A.; Berestov, A.; Klimova, S.; Tolstov, M.; Pankratova, A.; Токарев, Антон Николаевич; Берестов, Александр Васильевич; Климова, Софья Евгеньевна; Толстов, Михаил Сергеевич; Панкратова, Александра Максимовна
© 2020 Elsevier B.V.. All rights reserved.In the area of computer sciences there is a rapidly developing subject of mechatronics and robotics since its relevance to the fourth industrial revolution, especially in preprofessional education - schools etc. On the other side, technologies of virtual reality (VR technologies) have been spreading in education so far, including computer sciences and mechatronics and robotics education in Russian leading research universities. In National Research Nuclear University MEPhI we have a broad experience of application of hi-tech in education. In this paper we present the results of our practical research of application of VR instruments in preprofessional education in the area of mechatronics and robotics. One of the features of our research is that we have developed the educational program for obtaining practical skills in the area of VR digital technologies in compliance with the CDIO standards.
Только метаданные
Development of VR educational instruments for school pre-professional education in a research university
(2021) Tokarev, A.; Skobelin, I.; Tolstov, M.; Tsyganov, A.; Pak, M.; Токарев, Антон Николаевич; Толстов, Михаил Сергеевич; Цыганов, Александр Алексеевич
© 2020 Elsevier B.V.. All rights reserved.The area of computer science puts a lot of effort into the development of virtual reality technologies (VR technologies), especially in pre-professional education - school etc. Technologies of VR opens a lot of new opportunities in training and education, it is widely used in education establishment, especially in computer sciences and mechatronics and robotics education in Russian schools and universities. VR technologies helps to save time, money and other resources in contrast to the traditional approach of teaching. At the National Research Nuclear University MEPhI we have an extensive experience of application of high technology in education. In this article we present the results of our practical research of development of VR educational instruments for school pre-professional education. The specificity of our research is that we have developed an educational program for the acquisition of skills in working with VR technologies in accordance with CDIO standards.
Только метаданные
Разработка методик оценки состояния физической защиты и анализа нарушений на ядерном объекте и программных модулей автоматизации работы инспекторов по надзору за физической защитой.
(2016) Токарев, А. Н.; Токарев, Антон Николаевич; Пинчук Геннадий Николаевич
Открытый доступ
Determination of temperature dependences of Youngs modulus and internal friction of fuel cladding by resonance method
(2019) Moshev, A. A.; Martynenko, S. P.; Martynenko, S. S.; Kudryavtsev, E. M.; Ableyev, A. N.; Tokarev, A. N.; Panasenko, R. A.; Rodko, I. I.; Maksimkin, A. I.; Zhukovskii, Y. O.; Belendryasova, E. G.; Мошев, Александр Александрович; Мартыненко, Сергей Павлович; Аблеев, Александр Нариманович; Токарев, Антон Николаевич; Родько, Илья Игоревич; Максимкин, Александр Игоревич; Жуковский, Юрий Олегович
We study elastic characteristics and internal friction of fuel claddings to improve computer codes for VVER-1000 fuel rods. We analytically described elastic characteristics of cladding material and obtained coefficient of the form of the first longitudinal frequency numerically. We described new measuring module for automatic acquisition data. We've established temperature dependences of Young's modulus and internal friction via high-temperature facility and developed electronic module and noted maximum of these characteristics at the temperature 1160 K. It can be explained by the destruction of the texture in the material of claddings.
Открытый доступ
Determination of types and degree of corrosion damage of fuel cladding by informative ranges of divergences of their natural oscillation frequencies
(2020) Moshev, A. A.; Rodko, I. I.; Berestov, A. V.; Yudin, I. A.; Tokarev, A. N.; Biryukov, A. P.; Ocheretko, V. E.; Gavrilyuk, M. Y.; Мошев, Александр Александрович; Родько, Илья Игоревич; Берестов, Александр Васильевич; Юдин, Игорь Андреевич; Токарев, Антон Николаевич; Бирюков, Александр Павлович
© Published under licence by IOP Publishing Ltd.The urgency of the work consists in using a new approach to the definition of informative frequencies for the identification of corrosion damage. The aim of the work is to determine the discrepancies between the resonance frequencies of the oscillations of the fuel casing segments of the factory geometry and with various types of corrosion damage obtained by modelling defects in the casings of fuel casing segments. As a result of the analysis, informative ranges of ordinal numbers were revealed, which allow to determine the following corrosion damages: thinning from the outer and inner sides of the fuel casing, pitting corrosion, fretting corrosion.
Открытый доступ
Development of a method for determining corrosion damage of fuel element claddings of a nuclear power unit by using acoustic resonance method in a hot chamber environment
(2020) Rodko, I. I.; Moshev, A. A.; Bozhko, Yu. V.; Yudin, I. A.; Tokarev, A. N.; Biryukov, A. P.; Chernykh, P. O.; Tolstov, M. S.; Родько, Илья Игоревич; Мошев, Александр Александрович; Божко, Юрий Валентинович; Юдин, Игорь Андреевич; Токарев, Антон Николаевич; Бирюков, Александр Павлович; Черных, Полина Олеговна; Толстов, Михаил Сергеевич
© Published under licence by IOP Publishing Ltd.As part of the strategic research program of state corporation Rosatom, carried out by the Technological Platform "Closed Nuclear Fuel Cycle with Fast Neutron Reactors", a research to equip protective cells with original equipment, including ultrasonic flaw detectors for primary post-reactor non-destructive research of the properties of critical materials of fast neutron reactors, is being performed. In this paper, we present a method developed for determining corrosion damage of fuel claddings by the acoustic resonance method in hot chamber conditions, and a description of the experimental installation.