Affiliation:
1. Federal State Budgetary Institution of Science “Udmurt Federal Research Centre of the Ural Branch of the Russian Academy of Sciences”
Abstract
Based on the results of the static crack resistance tests, the contribution of the strain-induced γ→α-transformation into the fructure toughness of steel N18K9M5T with two-phase (α+γ)-structure has been assessed.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics
Reference9 articles.
1. V.P. Vylezhnev, S.A. Kokovyakina, Yu.N. Simonov, A.A. Sukhikh, Elevation of reliability characteristics of maraging steel 03N18K9M5T by creating a «nanotriplex» - type structure, Metal Science and Heat Treament. 52 11-12 (2011) 550-557.
2. I.V. Pestov, A.Ya. Maloletnev, M.D. Perkas, A.F. Edneral, Low-cycle impact fatigue of maraging steel N18K9M5T with two-phase (α+γ)-structure, Metallovedeniуe i termicheskaya obrabotka metallov. 4 (1981) 28-31.
3. V.V. Tikhomirov, Yu.V.Shaknazarov, A.G. Pankov, N.I. Vorobyeva, Dependence of the steel N18K9M5T fracture toughness on the amount and stability of residual austenite at fracture at -196 °C, Fizika metallov i metallovedeniуe. 32 3 (1971) 641-643.
4. A.A. Sukhikh, V.P. Vylezhnev, The influence of (α+γ)-structure on the impact strength and structure of fractures of maraging steel N18K9M5T, Chimicheskaya fizika i mezoskopiya. 14 1 (2012) 59-71.
5. V.B. Dementyev, A.A. Sukhikh, T.M. Makhneva, On problem of increasing the structural strength of maraging steels, Inorganic Materials: Applied Research. 6 4 (2015) 343-349.