Harries, High-Chromium Ferritic and Martensitic Steels for Nuclear ApplicationsBridgeport (ASTM International, 2001) p.3 8 K. Ehrlich, Current status and future R&D for reduced-activation ferritic/martensitic steels, Journal of Nuclear Materials, 258-263, 193(1998) 6 LI Xinggang, YAN Qingzhi, GE Changchun, Research progress of reduced activation ferritic/martensitic steels, Journal of Iron and Steel Research, 21(6), 6(2009) Kaysser-Pyzallab, 9%Cr heat resistant steels: Alloy design, microstructure evolution and creep response at 650 oC, Materials Science and Engineering A, 528, 5164(2011) 5 A. Nagasaka, R&D status of China lowactivation martensitic steel, Chinese Journal of Nuclear Science and Engineering, 27(1), 41(2007) Microstructural evolution and creep behavior of bainitic, martensitic, and martensite–ferrite dual phase Cr–2W steels, Material Science and Technology, 8, 1063(1992) 3 HUANG Qunying, LI Chunjing, LI Yanfen, LIU Shaojun, WU Yican, LI Jiangang, WAN Farong, JU Xin, SHAN Yiyin, YU Jinnan, ZHU Shengyun, ZHANG Pinyuan, YANG Jianfeng, HAN Fusheng, KONG Mingguang, LI Heqin, T. Nelson, Ferritic/martensitic steels for next-generation reactors, Journal of Nuclear Materials, 371, 37(2007) 2 F.
0 kommentar(er)
