Rosatom and RUDN have successfully concluded their second annual Summer School on Additive Technologies in the Nuclear Industry, fostering innovation and knowledge exchange.
The second iteration of the Summer School on Additive Technologies in the Nuclear Industry, a collaborative effort between Rosatom and RUDN (Peoples' Friendship University of Russia), has concluded. This event served as a platform for specialists and young professionals to engage with cutting-edge advancements in additive manufacturing relevant to the nuclear sector.
The program offered a comprehensive curriculum, including lectures, practical workshops, and case studies. Participants delved into various aspects of 3D printing, from material science and process optimization to quality control and the application of additive technologies in nuclear power plant design and maintenance. The curriculum was designed to provide both theoretical knowledge and hands-on experience.
Key themes explored during the school included the development of new metal powders and composite materials suitable for demanding nuclear environments, advancements in printing technologies, and the integration of digital solutions for additive manufacturing. Discussions also focused on the regulatory framework and certification processes necessary for implementing 3D-printed components in the nuclear industry.
The event highlighted the growing importance of additive manufacturing in modernizing the nuclear sector, offering potential benefits such as reduced production times, lower costs, and the ability to create complex, customized parts. The school aimed to equip participants with the skills and understanding needed to drive innovation and adoption of these technologies within Rosatom and its affiliated enterprises.
This initiative underscores the nuclear industry's increasing adoption of additive manufacturing for complex component production and rapid prototyping. By focusing on specialized materials and processes, Rosatom is exploring how 3D printing can enhance efficiency, reduce lead times, and enable the creation of novel designs, aligning with the broader trend of advanced manufacturing in critical sectors.
Edited by the news editor with AI and translated into English from the original report — please refer to the original source.