IRC MBIR Advisory Board Committee on Materials and Fuel Research met in Moscow
06.05.2026
IRC MBIR Advisory Board Committee on Materials and Fuel Research met in Moscow
A meeting of the Committee on Material and Fuel Research on the International Research Centre on the basis of MBIR reactor (IRC MBIR) Advisory Board was held in Moscow. MBIR multipurpose fast-neutron research reactor is currently under construction in Dimitrovgrad, at the site of JSC “SSC RIAR” (State Scientific Centre – Research Institute of Atomic Reactors, part of Rosatom’s scientific division).
The event brought together over 80 experts from 35 organizations from Russia, China, Vietnam, Brazil, Uzbekistan, Tunisia, Jordan and other countries. Presentations were delivered by representatives of research organizations of Rosatom, the Joint Institute for Nuclear Research, the National Research Center Kurchatov Institute – St. Petersburg Institute of Nuclear Physics, the Dalat Nuclear Research Institute (VINATOM, Vietnam), and the Institute of Plasma Physics of the Chinese Academy of Sciences (ASIPP, China).
Vladimir Voronin, Deputy Director for Science at the NRC “Kurchatov Institute” – PNPI, presented an update on the development of PIK research reactor and outlined the scientific program for the International Centre for Neutron Research based on PIK high-flux reactor. At the meeting, participants put forward specific research requests for the MBIR reactor. VINATOM presented experimental work in materials science and reactor physics, and ASIPP showcased a research program in the field of controlled thermonuclear fusion. The neutron flux power and density of the MBIR reactor are designed to meet these requests, thereby ensuring the successful execution of high‑quality research experiments.
“Unique research facilities capable of addressing future energy challenges are a priority for national research programs. Only a handful of countries can conduct experiments of this level, and even fewer can build such facilities. Therefore, meetings of the international community are an opportunity to compare approaches, jointly identify key objectives for the MBIR, and harmonize requirements for irradiation capabilities and research infrastructure,” noted Stepan Kalmykov, Chairperson of the IRC MBIR Advisory Board, Vice President of the Russian Academy of Sciences, and Scientific Director of the Chemistry Department of Moscow State University, in his welcoming speech.
“MBIR significantly reduces time and resources required to study the properties of cladding, core components, and vessel materials. Most importantly, the data obtained apply to the broad range of modern technologies: from high-temperature gas-cooled reactors and small modular reactors to thermonuclear fusion. Such tasks can only be solved through broad international cooperation bringing together researchers and engineers,” emphasized Vladimir Novikov, Scientific Director of the Bochvar Institute.
“For our institute, participation in the IRC MBIR Consortium is an opportunity to conduct cutting-edge research using a unique facility. We are ready to actively collaborate with our partners in the development of promising technologies and joint scientific initiatives,” emphasized Ilham Sadikov, Director of the Institute of Nuclear Physics of the Academy of Sciences of the Republic of Uzbekistan.
“Access to the capabilities of MBIR reactor opens the way for Arab countries to make progress in the creation of new nuclear materials, the advancement of radiopharmaceuticals, and the development of a safe system for radioactive waste management,” noted Salem Hamdi, Director General of the Arab Atomic Energy Agency.
“Materials are the foundation upon which all technology breakthroughs in nuclear energy are built. The capabilities of the MBIR allow for the testing of new heat-resistant alloys and composites several times faster, shortening the path from concept to implementation. The committee has brought together researchers to address these ambitious challenges, and plans include the creation of new dedicated committees to further expand coverage of key research areas,” Vasily Konstantinov, Director General of Consortium Leader of IRC MBIR, addressed the participants.
One of the key outcomes of the meeting was a proposal to integrate the research capabilities of two unique scientific facilities: the PIK high‑flux beam reactor (Gatchina) and the MBIR high‑flux multifunctional reactor. Leveraging the complementary neutron spectra, equipment, and research methods available at these centres can create a synergistic effect, enabling a comprehensive solution to both applied and fundamental scientific challenges in the interests of global science.
The next important step in the work of the International Research Center based on the MBIR will be the 3rd meeting of the IRC MBIR Advisory Board, which will be held on September 30, 2026, in Tashkent at the Institute of Nuclear Physics of the Academy of Sciences of the Republic of Uzbekistan.
For reference:
MBIR is a multipurpose fast-neutron research reactor with sodium coolant and the thermal capacity of approximately 150 MW. The reactor is under construction in Dimitrovgrad at the site of the State Scientific Center - Research Institute for Atomic Reactors (RIAR JSC, a part of the R&D division of Rosatom State Corporation) within the framework of the national technological leadership project "New Nuclear and Energy Technologies". Currently, work is underway on installing the equipment of the reactor's primary circuit: in 2025, the cold filter-traps of the emergency heat removal system loop were installed in their design positions. As part of the primary circuit installation, adapters of hot pipelines have been welded to the reactor vessel and the first pipeline blocks; the installation of the main process equipment in the sodium storage building has been completed; a fuel handling mechanism and steam-water washing sockets for spent fuel assemblies (FA) have also been delivered. In 2026, two emergency heat exchangers weighing 7.3 tons, 5 meters high, and 1.5 meters in diameter have been installed in their design positions.
MBIR is intended for performance of reactor tests, production of radioisotopes, production of modified materials, as well as testing of new type equipment and systems. The unique capabilities of the new reactor are expected to accelerate development of solutions for the two-component nuclear power and the closed nuclear fuel cycle, as well as design of safe Generation IV nuclear power systems.
The International Research Center (IRC) in the form of an international consortium is established on the basis of MBIR reactor. The Consortium participants gain ‘fast track’ access to carry out the experiments needed for national programs of nuclear energy peaceful applications. The Consortium format allows for flexible use of the reactor resource for the demands of the scientific community. IRC MBIR Consortium is open to new members. The Joint Institute for Nuclear Research, the Nuclear Physics Institute at the Academy of Science of the Republic of Uzbekistan and Shanghai ZDAN International, a Chinese company, have already joint the Consortium as the main participants.
The event brought together over 80 experts from 35 organizations from Russia, China, Vietnam, Brazil, Uzbekistan, Tunisia, Jordan and other countries. Presentations were delivered by representatives of research organizations of Rosatom, the Joint Institute for Nuclear Research, the National Research Center Kurchatov Institute – St. Petersburg Institute of Nuclear Physics, the Dalat Nuclear Research Institute (VINATOM, Vietnam), and the Institute of Plasma Physics of the Chinese Academy of Sciences (ASIPP, China).
Vladimir Voronin, Deputy Director for Science at the NRC “Kurchatov Institute” – PNPI, presented an update on the development of PIK research reactor and outlined the scientific program for the International Centre for Neutron Research based on PIK high-flux reactor. At the meeting, participants put forward specific research requests for the MBIR reactor. VINATOM presented experimental work in materials science and reactor physics, and ASIPP showcased a research program in the field of controlled thermonuclear fusion. The neutron flux power and density of the MBIR reactor are designed to meet these requests, thereby ensuring the successful execution of high‑quality research experiments.
“Unique research facilities capable of addressing future energy challenges are a priority for national research programs. Only a handful of countries can conduct experiments of this level, and even fewer can build such facilities. Therefore, meetings of the international community are an opportunity to compare approaches, jointly identify key objectives for the MBIR, and harmonize requirements for irradiation capabilities and research infrastructure,” noted Stepan Kalmykov, Chairperson of the IRC MBIR Advisory Board, Vice President of the Russian Academy of Sciences, and Scientific Director of the Chemistry Department of Moscow State University, in his welcoming speech.
“MBIR significantly reduces time and resources required to study the properties of cladding, core components, and vessel materials. Most importantly, the data obtained apply to the broad range of modern technologies: from high-temperature gas-cooled reactors and small modular reactors to thermonuclear fusion. Such tasks can only be solved through broad international cooperation bringing together researchers and engineers,” emphasized Vladimir Novikov, Scientific Director of the Bochvar Institute.
“For our institute, participation in the IRC MBIR Consortium is an opportunity to conduct cutting-edge research using a unique facility. We are ready to actively collaborate with our partners in the development of promising technologies and joint scientific initiatives,” emphasized Ilham Sadikov, Director of the Institute of Nuclear Physics of the Academy of Sciences of the Republic of Uzbekistan.
“Access to the capabilities of MBIR reactor opens the way for Arab countries to make progress in the creation of new nuclear materials, the advancement of radiopharmaceuticals, and the development of a safe system for radioactive waste management,” noted Salem Hamdi, Director General of the Arab Atomic Energy Agency.
“Materials are the foundation upon which all technology breakthroughs in nuclear energy are built. The capabilities of the MBIR allow for the testing of new heat-resistant alloys and composites several times faster, shortening the path from concept to implementation. The committee has brought together researchers to address these ambitious challenges, and plans include the creation of new dedicated committees to further expand coverage of key research areas,” Vasily Konstantinov, Director General of Consortium Leader of IRC MBIR, addressed the participants.
One of the key outcomes of the meeting was a proposal to integrate the research capabilities of two unique scientific facilities: the PIK high‑flux beam reactor (Gatchina) and the MBIR high‑flux multifunctional reactor. Leveraging the complementary neutron spectra, equipment, and research methods available at these centres can create a synergistic effect, enabling a comprehensive solution to both applied and fundamental scientific challenges in the interests of global science.
The next important step in the work of the International Research Center based on the MBIR will be the 3rd meeting of the IRC MBIR Advisory Board, which will be held on September 30, 2026, in Tashkent at the Institute of Nuclear Physics of the Academy of Sciences of the Republic of Uzbekistan.
For reference:
MBIR is a multipurpose fast-neutron research reactor with sodium coolant and the thermal capacity of approximately 150 MW. The reactor is under construction in Dimitrovgrad at the site of the State Scientific Center - Research Institute for Atomic Reactors (RIAR JSC, a part of the R&D division of Rosatom State Corporation) within the framework of the national technological leadership project "New Nuclear and Energy Technologies". Currently, work is underway on installing the equipment of the reactor's primary circuit: in 2025, the cold filter-traps of the emergency heat removal system loop were installed in their design positions. As part of the primary circuit installation, adapters of hot pipelines have been welded to the reactor vessel and the first pipeline blocks; the installation of the main process equipment in the sodium storage building has been completed; a fuel handling mechanism and steam-water washing sockets for spent fuel assemblies (FA) have also been delivered. In 2026, two emergency heat exchangers weighing 7.3 tons, 5 meters high, and 1.5 meters in diameter have been installed in their design positions.
MBIR is intended for performance of reactor tests, production of radioisotopes, production of modified materials, as well as testing of new type equipment and systems. The unique capabilities of the new reactor are expected to accelerate development of solutions for the two-component nuclear power and the closed nuclear fuel cycle, as well as design of safe Generation IV nuclear power systems.
The International Research Center (IRC) in the form of an international consortium is established on the basis of MBIR reactor. The Consortium participants gain ‘fast track’ access to carry out the experiments needed for national programs of nuclear energy peaceful applications. The Consortium format allows for flexible use of the reactor resource for the demands of the scientific community. IRC MBIR Consortium is open to new members. The Joint Institute for Nuclear Research, the Nuclear Physics Institute at the Academy of Science of the Republic of Uzbekistan and Shanghai ZDAN International, a Chinese company, have already joint the Consortium as the main participants.