[1] [1] Zhu Zheng. Mechanical Engineering Materials［M］. Beijing: National Defense Industry Press, 2007. 148～150

[2] [2] A. Yakovlev, Ph. Bertrand, I. Smurov. Laser cladding of wear resistant metal matrix composite coating［J］. Thin Solid Films, 2004, 453-454:133～138

[3] [3] Zhixiang Zeng, Yan Zhou, Bin Zhang et al.. Designed fabrication of hard CrCr2O3Cr7C3 nanocomposite coatings for antiwear application［J］. Acta Materialia, 2009, 57(18): 5342～5347

[4] [4] C. Sudha, P. Shankar, R. V. Subba Rao et al.. Microchemical and microstructural studies in a PTA weld overlay of NiCrSiB alloy on AISI 304L stainlesss steel［J］. Surf. Coat. Technol., 2008, 202(10): 2103～2112

[5] [5] M. Zhang, W. Liu. Laser surface cladding: the state of the art and challenges［J］. Proc. IMechE Part C: J. Mechanical Engineering Science, 2010, 224(5): 1041～1060

[6] [6] 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

[7] [7] Zhang Xianhu, Chao Mingju, Liang Erjun et al.. Insitu synthesis of TiCZrC particulate reinforced Nibased composite coatings by laser cladding［J］. Chinese J . Lasers, 2009, 36(4): 998～1004

[8] [8] Zhang Dawei, Zhang Xinping. Microstructure and dry slide wear performance of laserclad NiCr3C2 composite coating［J］. Agricultural Machinery Institution, 2005, 36(6): 110～113

[9] [9] DaWei Zhang, T. C. Lei, FuJun Li. Laser cladding of stainless steel with NiCr3C2 for improved wear performance［J］. Wear, 2001, 251(1): 1372～1376

[10] [10] H. Zhang, Y. Shi, M. Kutsuna et al.. Laser cladding of colmonoy 6 powder on AISI316L austenitic stainless steel［J］. Nuclear Engineering and Design, 2010, 240(10): 2691～2696

[11] [11] Shi Yan, Zhang Hong, Xu Chunying. Research on the structure and wear resistance of colmonoy 6 alloy coating cladded on austenitic stainless steel by laser［J］. Acta Arm Amentar, 2010, 31(7): 928～932

[12] [12] John C. Betts. The direct laser deposition of AISI316 stainless steel and Cr3C2 powder［J］. J. Mater. Process. Technol., 2009, 209(11): 5229～5238

[13] [13] Tu Yi, Zhang Yongzhong, Xi Mingzhe. Investigation of nickelbased alloys coatings on stainless steel by laser cladding［J］. Chinese J. Rare Metals, 2008, 32(5): 599～603

[14] [14] Lü Xudong, Wang Huaming. Microstructure and wear properties of laser clad Mo2Ni3Si/NiSi silicide composite coatings［J］. Rare Metal Materials and Engineering, 2003, 32(10): 848～851

[15] [15] Shi Shihong, Fu Geyan, Li Long et al.. Realization and research of laser cladding with method of internal wire feeding through a hollow laser beam［J］. Chinese J. Lasers, 2010, 37(1): 266～270

[16] [16] Liu Shuang. Research on CoFree NiBased Alloy and Laser Cladding Process Applied in Nuclear Valve Sealing Surface Hardening［D］. Suzhou: Soochow University, 2010. 22～24

[17] [17] Rajnesh Tyagi, Dangsheng Xiong, Jianliang Li. Effect of load and sliding speed on friction and wear behavior of silver/hBN containing Nibase P/M composites［J］. Wear, 2011, 270(78): 423～430

[18] [18] Yun Youjun, Zhou Jiansong, Chen Jianmin et al.. Microstructure and tribological behavoir of laser cladding NiCr/Cr3C2AgBaF2/CaF2 selflubrication wearresistance metal matrix composite coating［J］. China Surface Engineering, 2010, 23(3): 64～73