[1] HALL A M, SLUNDER C J. The metalllurgy, behavior, and application of the 18% Ni maraging steels . Washington:NASA, 1968.
[2] LANG F H, Kenyon N.Welding of maraging steel. WRC Bulletin 159, 1971.
[3] WEI S, Zhan L G. Maraging steels: Modelling of microstructure, properties and applications. Woodhead Publishing Limited/CRC Press, 2009.
[4] 魏振宇. 马氏体时效钢. 国外马氏体时效钢与高强度不锈钢. 新金属材料编辑部, 1974:27-53.
[5] TARIQ F, BALOCH R A, AHMED B, et al. Investigation into microstructures of maraging steel 250 weldments and effect of post-weld heat treatments. Journal of Materials Engineering and Performance, 2010, 19(2):264-273.
[6] SHAMANTHA C R, NARAYANAN R, IYER K J L, et al. Microstructural changes during welding and subsequent heat treatment of 18Ni (250-grade) maraging steel. Materials Science and Engineering: A, 2000, 287(1): 43-51.
[7] REDDY G M, RAO V V, RAJU A V S. The effect of post-weld heat treatments on the microstructure and mechanical properties of maraging steel laser weldments. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications. 2009, 223(4): 149-159.
[8] YOSHIKI A, MICHIO T, SEIJI K. Weldability of 18Ni maraging steel (HT210) by ultrahigh voltage electron beam welding. Transactions of JWRI, 1985, 14(1): 97-106.
[9] CHATTERJEE M, SIVASUBRAMANIAN K. New filler wire for welding 250 grade maraging steels. Materials Science and Technology Conference and Exhibition, 2008, 3:1832-1836.
[10] 陈炜, 黄孝瑛, 潘天喜, 等. 18Ni(250)马氏体时效钢焊缝显微组织对断裂韧性的影响. 钢铁, 1981, 16(1): 42-46.
[11] 黄孝瑛, 陈炜, 潘天喜, 等. 18Ni(250)马氏体时效钢焊接形成的逆转变奥氏体. 钢铁, 1981, 16(2): 60-61.
[12] 姜树田. Ni18Co9Mo5Ti马氏体时效钢焊缝组织中的白亮块对焊缝性能的影响. 宇航材料工艺, 1983(1): 18-23.
[13] 杨帅. 2000MPa级马氏体时效钢焊缝金属强韧化机理研究. 北京: 钢铁研究总院, 2015.
[14] YANGS, PENG Y,ZHANG X M , et al. Phase transformation and its effect on mechanical properties of C300 weld metal after different aging temperature treatment. Journal of Iron and Steel Research, International, 2015, 22(6): 527-533.
[15] 杨帅, 彭云, 张晓牧, 等. C300马氏体时效钢等离子弧焊接接头的组织与硬度. 机械工程材料, 2014, 38(10): 1-5.
[16] 杨帅, 彭云, 张晓牧, 等. 固溶温度对C300钨极氩弧焊焊缝成分均匀化的影响. 航空材料学报,2014, 34(1): 16-21.
[17] 邹吉权. 超高强度钢及其焊接接头的断裂行为研究[D]. 天津:天津大学, 2008.
[18] 蔡其巩, 朱静, 何崇智. 马氏体时效钢的时效结构. 物理学报, 1974, 23(3): 178-193.
[19] GLADMAN T. The physical metallurgy of microalloyed steels. London: The Institute of materials, 1997.
[20] 何毅, 杨柯, 曲文生, 等. 超纯净化18Ni(350)马氏体时效钢的研究. 金属学报, 2001, 37(8):852-856.