Fatigue strength of low-activation ferritic–martensitic high-chromium EK-181 steel-Reference-Cited by-同舟云学术

Fatigue strength of low-activation ferritic–martensitic high-chromium EK-181 steel

Published:2016-04 Issue:4 Volume:2016 Page:394-398
ISSN:0036-0295
Container-title:Russian Metallurgy (Metally)
language:en
Short-container-title:Russ. Metall.

Author:

Kolmakov A. G.,Terent’ev V. F.,Prosvirnin D. V.,Chernov V. M.,Leont’eva-Smirnova M. V.

Publisher

Pleiades Publishing Ltd

Subject

Metals and Alloys

Link

http://link.springer.com/content/pdf/10.1134/S0036029516040121.pdf

Reference8 articles.

1. M. V. Leont’eva-Smirnova, A. N. Agafonov, G. N. Ermolaev, et al., “Microstructure and mechanical properties of low-activation ferritic–martensitic EK-181 (RUSFER-EK-181) steel,” Perspektivnye Materialy, No. 6, 40–52 (2006).

2. V. M. Chernov, M. V. Leontieva-Smirnova, M. M. Potapenko, et al., “Structural materials for fusion power reactors—the RF R&D activities,” Nuclear Fusion 47, 839–848 (2007).

3. A. G. Kolmakov, V. M. Chernov, D. V. Prosvirnin, et al., “Mechanical properties of low-activation ferritic–martensitic EK-181 steel,” in Mechanical Properties of Modern Structural Materials (IMET RAN, Moscow, 2014), pp. 146–148.

4. T. N. Vershinina, Yu. R. Kolobov, and M. V. Leont’eva-Smirnova, “X-ray diffraction study of the dislocation structure of ferritic–martensitic EK-181 steel,” Deformatsiya Razrushenie Materialov, No. 5, 32–37 (2013).

5. V. A. Romanova, O. S. Zinov’eva, R. R. Balokhnov, and V. A. Kovalev, “Formation of a mesoscopic relief on the surface of steel samples during uniaxial tension: experiment and simulation,” Deformatsiya Razrushenie Materialov, No. 5, 32–40 (2012).

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