Abstract
With the development of science and technology, comprehensive performance of high temperature structural materials were demanded urgently. In this paper, the Ni3Al and NiAl high temperature structural materials were summarized. Various properties of Ni3Al and NiAl were briefly discussed. As well as, various preparations of intermetallics compounds were retrospected. Ni3Al and NiAl alloys have good performance such as high melting point, excellent oxidizability resistance under high temperature, moderate density, outstanding heat and electrical conductivity, which were considered as the outlook high temperature structural materials at the present and become emphasis which were exploited and researched.
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Sun Yan, Liu Ruiyan, Zhang Junshan, and Zhu Meil, Progress in NIAI-Based intermetallie compound research, Materials Reviews, 2003, 17(7): 10.
Jiang Yao, He Yuehui, Hhang Boyun, and Yuan Zhaohui, Progress in current researeh on NIAI intermetallie alloys, Powder Metallurgy Materials Science and Engineering, 2004, 9(2): 112.
Zhang Guangye, Zhang Hua, Tang Guoning, Guo Jianting, Liao Yanchun, and Li Maohua, Oxidation behavior of NiAl and NiAl-based alloys, Materials Reviews, 2006, 20(3): 71.
Hou Shixiang, Liu Dongyu, Liu Zongde, and Ma Yimin, Research overview of NiAl intermetallic compound, Metals Heat Treatment, 2007, 32(7): 60.
Lu Xin, Wang Shuchao, Zhu Hongmin, and Qu Xuanhui, High temperature deformation behavior of powdermetallurgy TiAl based alloys, Journal of University of Science and Technology Beijing, 2010, 32(9): 1181.
Zhang Xuhu, and Lang Zebao, Study of powder metallurgy of TIAI intermetallic, Chinese Non-Ferrous Metals Materials Processing Proceedings, 2007: 17.
Wu Fei, Gao Huaping, Zhang Guangye, Long Jinming, and Jie Xingdi. Low temperature hot corrosion properties of NiAl-31Cr-3Mo alloy, Corrosion and Protection, 2010, 31(7): 536.
Ren Weili, Guo Jianting, and Zhou Jiyang, Influence of yttrium on microstructure and mechanical properties of NiAl-28Cr-5·5Mo-0·5Hf alloy, Journal of the Chinese Rare Earth Society, 2002, 20(2): 146.
Kang Pengchao Yin Zhongda Zhu Jingchuan, and Li Mingwei, Progress in research on MoSi2-base elevated temperature structural material, Aerospace Materials & Technology, 2002, (5): 10.
Li Zhilin, Qu Xuanhui, and Huang Boyun, Progress in research of high-temperature structural intermetallic compounds, Materials Review, 1995, (3): 16.
He Xiaofeng, and Li Yungang, Research actuality and progress of the high temperature structural materials, Journal of Rare Earths, 2006, 24(s): 574.
Chen Hongling, Development and expectation of intermetallic compounds high temperature structure materials, Fujian Chemical Engineering, 2004, (3): 60.
Tan Yunqi, and Wang Wensheng, TiAl compound-an competitive high temperature structure material, Titantium Industry Progress, 2000, (5): 9.
Zhong Zengyong, Intermetallic compounds for high temperature structural materials, Chinese Journal of Materials Research, 1990, 4(2): 132.
Xiao Chengbo, Han Yafang, and Zhang Xingan, Study on directionally solidified Ni3Al based high temperature structural material IC6A alloy, Journal of Materials Engineering, 2001, (6): 3.
Zhang Guangye, Zhang Hua, and Guo Jianting. Investigation of microstructure and BDTT for multiphase NiAl-Cr alloy, Material Engineering, 2005, (11): 24.
Peng Ping, Hu Yanjun, Li Guifa, Zhou Dianwu, and Chen Lu. Alloying effects of the mechanical properties of B2-NiAl intermetallic compound. Journal of Hunan University (Natural Sciences), 2006, 33(3): 84.
Xu Songbo, New generational high-temperature structural material-intermetallic compound Ni3Al, Shanghai Nonferrious Metals, 1997, 18(2): 88.
Ma Li, Sun Yue, He Xiaodong, and Li Yao, Research on ultrathin high temperature structure materials achieved by EB-PVD, Materials Review, 2006, 20(11): 100.
Cao Yang, and Li Guojun, The recent development of high temperature structure intermetallics, Materials Review, 1994, (4): 14.
Zhang Guangye, Guo Jianting, and Ye Hengqiang, The microstructure and oxidation behavior for NiAl-30.9Cr-3Mo-0.1Dy alloy at high temperature, Journal of Aeronautical Materials, 2005, 25(2): 6.
Xu Chunmei, Guo Jianting, and Yang Fubao. High temperature oxidation behavior of NiAl-28Cr-Mo-1Hf alloy, Acta Metallurgica Sinica, 2001, 37(8): 857.
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Wang, J., Qian, J., Zhang, X. et al. Research status and progress of NiAl based alloys as high temperature structural materials. Rare Metals 30 (Suppl 1), 422–426 (2011). https://doi.org/10.1007/s12598-011-0317-2
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DOI: https://doi.org/10.1007/s12598-011-0317-2