Technical issues of reduced activation ferritic/martensitic steels for fabrication of ITER test blanket modules
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Steven J. Zinkle | Hisashi Serizawa | Eiichi Wakai | Mikhail A. Sokolov | Akira Kohyama | Ronald L. Klueh | Seiji Katayama | Hiroaki Mori | Ryuta Kasada | Takanori Hirose | Roger E. Stoller | Hiroyasu Tanigawa | Yousuke Kawahito | Yutaka Kohno | S. Jitsukawa | S. Katayama | A. Kohyama | S. Jitsukawa | S. Zinkle | Y. Kohno | R. Klueh | K. Shiba | Y. Kawahito | E. Wakai | R. Stoller | K. Nishimoto | H. Serizawa | K. Nishimoto | A. Kimura | H. Mori | M. Sokolov | H. Tanigawa | T. Hirose | K. Shiba | A. Kimura | R. Kasada | K Nishimoto | Shiro Jitsukawa
[1] S. Katayama,et al. Elucidation of high-power fibre laser welding phenomena of stainless steel and effect of factors on weld geometry , 2007 .
[2] A. Kohyama,et al. Effects of surface morphology on fatigue behavior of reduced activation ferritic/martensitic steel , 2007 .
[3] E. Wakai,et al. Effect of heat treatments on tensile properties of F82H steel irradiated by neutrons , 2007 .
[4] M. Sokolov,et al. Application of the master curve to inhomogeneous ferritic/martensitic steel , 2007 .
[5] A. Kohyama,et al. Effects of Inclusions on Fracture Toughness of Reduced-Activation Ferritic/Martensitic F82H-IEA Steels , 2007 .
[6] A. Kohyama,et al. Evaluation of creep properties of reduced activation ferritic steels , 2007 .
[7] John Francis,et al. Review Type IV cracking in ferritic power plant steels , 2006 .
[8] Mikio Enoeda,et al. Overview of design and R&D of test blankets in Japan , 2006 .
[9] Mikio Enoeda,et al. Reduced activation martensitic steels as a structural material for ITER test blanket , 2004 .
[10] Akira Kohyama,et al. Recent results of the reduced activation ferritic/martensitic steel development , 2004 .
[11] R. Klueh,et al. Deformation Microstructure of a Reduced-Activation Ferritic/Martensitic Steel Irradiated in HFIR , 2003 .
[12] R. Klueh,et al. Microstructure and Hardness Variation in a TIG Weldment of Irradiated F82H , 2003 .
[13] R. Klueh,et al. Charpy Impact Properties of Reduced-Activation Ferritic/Martensitic Steels Irradiated in HFIR up to 20 dpa , 2003 .
[14] A. Hishinuma,et al. Microstructure of welded and thermal-aged low activation steel F82H IEA heat , 2000 .
[15] A. Álamo,et al. Effects of thermal aging on the mechanical behavior of F82H weldments , 2000 .
[16] Akira Kohyama,et al. Production of low activation steel; JLF-1, large heats Current status and future plan 1 Work suppo , 1998 .
[17] M. Narui,et al. Effects of small changes in alloy composition on the mechanical properties of low activation 9%Cr-2%W steel , 1991 .
[18] M. Tamura,et al. Mechanical properties of welded joints of the reduced-activation ferritic steel: 8% Cr-2% W-0.2% V-0.04% Ta-Fe , 1991 .
[19] Manabu Tamura,et al. Development of potential low activation ferritic and austenitic steels , 1986 .