Microstructure assessment of the low activation ferritic/martensitic steel F82H

被引:41
|
作者
Schaublin, R [1 ]
Spatig, P [1 ]
Victoria, M [1 ]
机构
[1] EPFL, CRPP, Assoc Euratom Confederat Suisse, CH-5232 Villigen, Switzerland
来源
JOURNAL OF NUCLEAR MATERIALS | 1998年 / 258卷
关键词
D O I
10.1016/S0022-3115(98)00182-2
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The microstructure of the low activation F82H ferritic/martensitic steel has been investigated in the cases of the heat treated, irradiated and deformed material. The irradiation has been achieved with 590 MeV protons in the Proton IRradiation EXperiment (PIREX) facility to a dose of 0.5 dpa at a temperature of 523 K. The unirradiated material was deformed in tension to failure at room temperature. The dislocations character as well as the dislocation density are determined. The carbide chemical composition and the size distribution of the carbides are assessed. (C) 1998 Elsevier Science B.V. All rights reserved.
引用
收藏
页码:1178 / 1182
页数:5
相关论文
共 50 条
  • [31] Influence of helium on deuterium retention in reduced activation ferritic martensitic steel (F82H) under simultaneous deuterium and helium irradiation
    Yakushiji, K.
    Lee, H. T.
    Oya, M.
    Hamaji, Y.
    Ibano, K.
    Ueda, Y.
    PHYSICA SCRIPTA, 2016, T167
  • [32] High strain fatigue properties of F82H ferritic-martensitic steel under proton irradiation
    Marmy, P
    Oliver, BM
    JOURNAL OF NUCLEAR MATERIALS, 2003, 318 : 132 - 142
  • [33] Permeation of deuterium and tritium through the martensitic steel F82H
    Dolinsky, YN
    Zouev, YN
    Lyasota, IA
    Saprykin, IV
    Sagaradze, VV
    JOURNAL OF NUCLEAR MATERIALS, 2002, 307 (2 SUPPL.) : 1484 - 1487
  • [34] Evolution of the mechanical properties of the F82H ferritic/martensitic steel after 590 MeV proton irradiation
    Spatig, P
    Schaublin, R
    Gyger, S
    Victoria, M
    JOURNAL OF NUCLEAR MATERIALS, 1998, 258 : 1345 - 1349
  • [35] Comparison between 590 MeV proton irradiation and neutron irradiation on the F82H ferritic martensitic steel
    Schäublin, R
    Victoria, M
    MICROSTRUCTURAL PROCESSES IN IRRADIATED MATERIALS, 1999, 540 : 597 - 602
  • [36] Stress corrosion cracking susceptibility of a reduced-activation martensitic steel F82H
    Miwa, Yukio
    Jitsukawa, Shiro
    Tsukada, Takashi
    JOURNAL OF NUCLEAR MATERIALS, 2009, 386-88 : 703 - 707
  • [37] Evolution of the mechanical properties of the F82H ferritic/martensitic steel after 590 MeV proton irradiation
    Spatig, P.
    Schaublin, R.
    Gyger, S.
    Victoria, M.
    Journal of Nuclear Materials, 1998, 258-263 (pt B): : 1345 - 1349
  • [38] Correlation between microstructure and mechanical properties of reduced activation modified F-82H ferritic martensitic steel
    Fernández, P
    Hernández-Mayoral, M
    Lapeña, J
    Lancha, AM
    De Diego, G
    MATERIALS SCIENCE AND TECHNOLOGY, 2002, 18 (11) : 1353 - 1362
  • [39] Surface modification and sputtering erosion of reduced activation ferritic martensitic steel F82H exposed to low-energy, high flux deuterium plasma
    Alimov, V. Kh.
    Hatano, Y.
    Yoshida, N.
    Watanabe, H.
    Oyaidzu, M.
    Tokitani, M.
    Hayashi, T.
    NUCLEAR MATERIALS AND ENERGY, 2016, 7 : 25 - 32
  • [40] Internal friction study of hydrogen behaviour in low activated martensitic F82H steel
    Jagodzinski, Y
    Tarasenko, A
    Smuk, S
    Tähtinen, S
    Hänninen, H
    JOURNAL OF NUCLEAR MATERIALS, 1999, 275 (01) : 47 - 55
12345