[1] [1] Hou Shixiang, Liu Dongyu, Liu Zongde et al.. Research overview of NiAl intermetallic compound［J］. Heat Treatment of Metals, 2007, 32(7): 60～64

[2] [2] Lou Dan, Ding Qingming, Lou Chenghua et al.. Influences of laser surface treatment on microstructure and wear resistance of electroless composite plated NiAl/nano Al2O3 coatings［J］. Laser & Optoelectronics Progress, 2010, 47(10): 101405

[3] [3] Xu Chunmei, Guo Jianting. Effect of NiAl microcrystalline coating on high temperature oxidation behaviors of two NiAl-based eutectic alloys［J］. Acta Metallurgica Sinica, 2002, 38(7): 673～678

[4] [4] Y. Wang, Z. Wang, Y. Yang et al.. The effects of ceria on the mechanical properties and thermal shock resistance of thermal sprayed NiAl intermetallic coatings［J］. Intermetallics, 2008, 16(5): 682～688

[5] [5] D. Zhong, J. J. Moore, E. Sutter et al.. Microstructure, composition and oxidation resistance of nanostructured NiAl and Ni-Al-N coatings produced by magnetron sputtering ［J］. Surface & Coatings Technology, 2005, 200(5-6): 1236～1241

[6] [6] Hongbo Guo, Lidong Sun, Hefei Li et al.. High temperature oxidation behavior of hafnium modified NiAl bond coat in EB-PVD thermal barrier coating system［J］. Thin Solid Films, 2008, 516(16): 5732～5735

[7] [7] Sun Ronglu, Liu Zhiyong, Niu Wei et al.. Influence of Ti substrate dilution on the microstructure of NiCrBSiC laser clad coatings［J］. Chinese J. Lasers, 2008, 35(11): 1741～1745

[8] [8] Chen Yongzhe, Wang Cunshan, Li Ting et al.. Composition design and properties of laser clad Ni-Zr-Al alloy coating on the magnesium surface［J］. Chinese J. Lasers, 2009, 36(8): 2187～2191

[9] [9] W. W. Lee, D. B. Lee, M. H. Kim et al.. High temperature oxidation of an oxide-dispersion strengthened NiAl［J］. Intermetallics, 1999, 7(12): 1361～1366

[10] [10] Xu Songhua, Xiao Yang, Li Jian. Organization property researches of the laser repair technology in the helicopter engine turbine oriented implement［J］. Acta Optica Sinica, 2010, 30(8): 2311～2316

[11] [11] Luo Fang, Yao Jianhua, Hu Xiaxia et al.. Effect of laser power on the cladding temperature field and the heat affected zone［J］. Journal of Iron and Steel Research, International, 2011, 18(1): 73～78

[12] [12] Liu Zhonghua. Research on Microstructure and Properties of Ni-Based Composite Coating by Laser Cladding on Titanium Surface Alloys［D］. Dalian: Dalian University of Technology, 2007. 22～25

[13] [13] John G. Goedjen, David A. Shores. The effect of alloy grain size on the transient oxidation behavior of an alumina-forming alloy［J］. Oxidation of Metals, 1992, 37(3/4): 125～142

[14] [14] Lou Hanyi, Wang Fuhui, Xia Bangjie et al.. High-temperature oxidation resistance of sputtered micro-grain superalloy K38G［J］. Oxidation of Metals, 1992, 38(3/4): 299～307

[15] [15] Liu Zhenyu, Gao Wei, Karl L. Dahm et al.. Improved oxide spallation resistance of microcrystalline Ni-Cr-Al coatings［J］. Oxidation of Metals, 1998, 50(1/2): 51～69