Wear resistance of steels with surface nanocrystalline structure generated by mechanical-pulse treatment H Nykyforchyn, V Kyryliv, O Maksymiv Nanoscale Research Letters 12, 1-5, 2017 | 26 | 2017 |
Fatigue and corrosion fatigue of the roll steels with surface nanostructure V Kyryliv, B Chaikovs' kyi, O Maksymiv, B Mykytchak Journal of Nano Research 51, 92-97, 2018 | 19 | 2018 |
Physical and mechanical properties of surface nanocrystalline structures generated by severe thermal-plastic deformation H Nykyforchyn, V Kyryliv, O Maksymiv Nanocomposites, Nanophotonics, Nanobiotechnology, and Applications: Selected …, 2015 | 19 | 2015 |
Fatigue crack growth rates of S235 and S355 steels after friction stir processing D Kocańda, V Hutsaylyuk, T Ślęzak, J Torzewski, H Nykyforchyn, V Kyryliv Materials Science Forum 726, 203-210, 2012 | 19 | 2012 |
Improvement of the wear resistance of medium-carbon steel by nanodispersion of surface layers VI Kyryliv Materials Science 48, 119-123, 2012 | 19 | 2012 |
Surface saturation of steels with carbon during mechanical-pulse treatment VI Kyryliv Materials Science 35 (6), 853-858, 1999 | 19 | 1999 |
Mechanical fabrication methods of nanostructured surfaces H Nykyforchyn, V Kyryliv, O Maksymiv, O Zvirko Handbook of Modern Coating Technologies, 25-67, 2021 | 16 | 2021 |
Formation of surface corrosion-resistant nanocrystalline structures on steel H Nykyforchyn, V Kyryliv, O Maksymiv, Z Slobodyan, O Tsyrulnyk Nanoscale Research Letters 11, 1-6, 2016 | 16 | 2016 |
Effect of Nanostructurisation of Structural Steels on its Wear Resistance and Hydrogen Embittlement Resistance H Nykyforchyn, V Kyryliv, O Maksymiv Solid State Phenomena 225, 65-70, 2015 | 16 | 2015 |
Structural steels surface modification by mechanical pulse treatment for corrosion protection and wear resistance HM Nykyforchyn, VI Kyryliv, DV Slobodjan, JM Koval Surface and Coatings Technology 100, 125-127, 1998 | 16 | 1998 |
Hydrogen permeability of the surface nanocrystalline structures of carbon steel HM Nykyforchyn, Å Lunarska, V² Kyryliv, ÎV Maksymiv Materials Science 50, 698-705, 2015 | 14 | 2015 |
Contact fatigue of 20KHN3A steel with surface nanostructure VI Kyryliv, BP Chaikovs’ kyi, OV Maksymiv, AV Shal’Ko Materials Science 51, 833-838, 2016 | 13 | 2016 |
Influence of hydrogen on the mechanical properties of steels with the surface nanostructure H Nykyforchyn, E Lunarska, V Kyryliv, O Maksymiv Nanoplasmonics, Nano-Optics, Nanocomposites, and Surface Studies: Selected …, 2015 | 12 | 2015 |
Wear resistance of the surface nanocrystalline structure under an action of diethylene glycol medium H Nykyforchyn, V Kyryliv, O Maksymiv, V Kochubei, R Boyko, V Dovhunyk Applied Nanoscience 9, 1085-1090, 2019 | 11 | 2019 |
Formation of surface ultrafine grain structure and their physical and mechanical characteristics using vibration-centrifugal hardening V Kyryliv, Y Kyryliv, N Sas Advances in Materials Science and Engineering 2018, 1-7, 2018 | 11 | 2018 |
Mechanopulsed hardening of long components of the hydraulic cylinder rod type TN Kalichak, VI Kyryliv, SV Fenchin Soviet materials science: a transl. of Fiziko-khimicheskaya mekhanika …, 1989 | 11 | 1989 |
Serviceability of 60KH2M roll steel with surface nanostructure VI Kyryliv, BP Chaikovs’ kyi, OV Maksymiv, AV Shal’Ko, PY Sydor Materials Science 52, 848-853, 2017 | 9 | 2017 |
Influence of the deformation mode on the force conditions of formation of the surface nanostructure of 40KH steel V² Kyryliv, V² Gurey, ÎV Maksymiv, ²V Hurey, YÎ Kulyk Materials Science 57 (3), 422-427, 2021 | 8 | 2021 |
Resistance of surface nanostructures and ultrafine grain structures on steel 40Kh to wear and cavitation-erosive destruction Y Kyryliv, V Kyryliv, B Tsizh, O Maksymiv Applied Nanoscience 12 (4), 1085-1090, 2022 | 6 | 2022 |
Influence of surface ultrafine grain structure on cavitation erosion damage resistance Y Kyryliv, V Kyryliv, N Sas Nanocomposites, Nanostructures, and Their Applications: Selected Proceedings …, 2019 | 6 | 2019 |