[1] L. Shepeleva, B. Medres, W. D. Kaplan et al.. Laser cladding of turbine blades[J]. Surface and Coatings Technology, 2000, 41(1-3): 45~48
[2] P. Bendeicha, N. Alamb, M. Brandtc et al.. Residual stress measurements in laser clad repaired low pressure turbineblades for the power industry[J]. Materials Science and Engineering, 2006, 10(1): 70~74
[3] L. Sextona, S. Lavina, G. Byrnea et al.. Laser cladding of aerospace materials[J]. J. Materials Processing Technology, 2002, 122(1): 63~68
[4] Y. P. Kathuria. Some aspects of laser surface cladding in the turbine industry[J]. Surface and Coatings Technology, 2000, 132(2-3): 262~269
[5] R. Vilar, E. C. Santos, P. N. Ferreira et al.. Structure of NiCrAlY coatings deposited on single-crystal alloy turbine blade material by laser cladding[J]. Acta Materialia, 2009, 57(18): 5292~5302
[8] Zhao Jianfeng, Zhang Jianhua, Zhang Jianfeng et al.. Analysis on microstructure feature of Ni-alloy parts prepared by direct laser metal sintering[J]. China Mechanical Engineering, 2005, 16(3): 264~267
[9] Wang Maocai, Zhang Jie. Powder metallurgy repair & remanufacturing of high temperature alloy bucket[J]. China Surface Engineering, 2010, 23(1): 75~79
[10] Zhang Jianhua, Zhao Jianfeng, Tian Zongjun et al.. Experimental research on selective laser sintering of nickel-based alloy powder[J]. China Mechanical Engineering, 2004, 15(5): 431~434
[11] Gao Enmeng, Zhao Jianfeng, Liu Bingjun. Microstructure and mechanical property of samples prepared by DLMS with FGH95 powder[J]. Heat Treatment Technology and Equipment, 2009, 30(3): 656~659
[12] Guo Shiju. Powder Sintering Theory[M]. Beijing: Metallurgical Industry Press,1998. 301~311
[13] Deng Qilin, Hu Dejin. Rapid prototyping densified metalcomponents by laser cladding[J]. Heat Treatment of Metals, 2008, 28(2): 33~38
[14] Ma Lei, Wu Maoliang, Li Dichen et al.. A study on laser scanstrategy of stereo lithography (SL) based on layers characteristics[J]. Mechanical Science and Technology, 2001, 20(2): 269~271