Yu. F. Ivanov
Russian Academy of Sciences
497 Papers
1.2K Citations
Yu. F. Ivanov is an academic researcher from Russian Academy of Sciences. The author has contributed to research in topics: Surface layer & Alloy. The author has an hindex of 24, co-authored 376 publications. Previous affiliations of Yu. F. Ivanov include Tomsk Polytechnic University & Tomsk State University.
Chat about Author
Papers
The use of low-temperature plasma in a combined technology for the formation of wear-resistant boron-containing coatings
A. A. Klopotov,A. A. Klopotov,Yu. F. Ivanov,A. I. Potekaev,Yu. A. Abzaev,M.P. Kalashnikov,A. V. Chumaevskii,Oleg Volokitin,A. D. Teresov,V. A. Vlasov,V. D. Klopotov +10 more
TL;DR: In this paper, the results obtained by optimizing the mode of the substrate surface fusion and the powder deposition onto the molten surface of a substrate using low-temperature plasma generators of the original design are presented.
9
Physical nature of surface structure degradation in long term operated rails
Victor Gromov,A. A. Yuriev,O. A. Peregudov,Sergey Konovalov,Yu. F. Ivanov,A. M. Glezer,Alexander Semin +6 more
- 01 Dec 2017
TL;DR: In this paper, the structural phase state and surface properties of rails after long-term operation with a transported tonnage of gross weight 500 and 1000 mln tons were analyzed.
9
Modification of a Coating (Tin) – Substrate (Vt1-0) System with High-Intensity Pulsed Electron Beams
Yu. F. Ivanov,Yu. F. Ivanov,Elizaveta Petrikova,Elizaveta Petrikova,O. V. Ivanova,I. A. Ikonnikova,Anton D. Teresov,Anton D. Teresov,Vladimir Shugurov,Olga V. Krysina,Olga V. Krysina +10 more
TL;DR: In this paper, numerical simulation of the temperature fields and phase transformations in a surface layer of a TiN- substrate (VT1-0) system irradiated with a high-intensity pulsed electron beam are reported.
9
Effect of Ultrasonic Compaction of Nanopowder on Structure and Fracture Character of Zirconia Nanoceramics
Oleg L. Khasanov,Yu.P. Pokholkov,Yu. F. Ivanov,L. L. Ljubimova,A. A. Makeev +4 more
- 01 Jan 2002
TL;DR: The structural-scale hierarchy and phase composition of zirconia nanoceramics (ZrO2) fabricated from plasma chemical ZIRconia nanopowder compacted by ultrasonic (US) action and without it are studied and compared as discussed by the authors.
9