Effect of helium implantation on mechanical properties and microstructure evolution of reduced-activation 9Cr–2W martensitic steel
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Ryuta Kasada | Akira Hasegawa | A. Hasegawa | A. Kimura | A. Kimura | R. Kasada | T. Morimura | T. Morimura
[1] H. Matsui,et al. Void swelling of Japanese candidate martensitic steels under FFTF/MOTA irradiation , 1996 .
[2] A. Hasegawa,et al. Effect of helium implantation at 533 573 K on tensile properties of 9Cr martensitic steels , 1993 .
[3] T. Misawa,et al. Small punch tests for evaluating ductile-brittle transition behavior of irradiated ferritic steels , 1987 .
[4] W. C. Leslie,et al. The physical metallurgy of steels , 1981 .
[5] M. L. Hamilton,et al. The consequences of helium production on microstructural development and deformation response in isotopically tailored ferritic alloys , 1997 .
[6] Jensen,et al. Helium bubbles in metals: Molecular-dynamics simulations and positron states. , 1987, Physical review. B, Condensed matter.
[7] H. Ullmaier. The influence of helium on the bulk properties of fusion reactor structural materials , 1984 .
[8] D. J. Reed. A review of recent theoretical developments in the understanding of the migration of helium in metals and its interaction with lattice defects , 1977 .
[9] Ronald L. Klueh,et al. Embrittlement of CrMo steels after low fluence irradiation in HFIR , 1995 .
[10] M. Narui,et al. Effect of Neutron Irradiation on Yield Stress and Ductility of Reduced-Activation Martensitic 9Cr–WVTa Steels , 1993 .