[1] [1] XU B Sh. Remanufacture engineering and its development in China［J］. China Surface Engineering, 2010, 23(2):1-6(in Chinese).

[2] [2] HAN Y Y, LU J J, LI J F, et al. Lathe spindle remanufacturing based on laser cladding technology［J］. China Surface Engineering, 2015, 28(6): 147-153(in Chinese).

[3] [3] LU Y Zh, LEI W N, REN W B, et al. Matching and strengthening between Inconel718 cladding and K418 alloy blades by laser remanufacturing［J］. Laser Technology, 2020,44(1):54-60(in Chinese).

[4] [4] GUO Sh R, SHANG H Ch, CUI L J, et al. Effects of laser cladding layers width on total indicated runout characteristics of steam turbine rotor surface［J］. Rare Metal Materials and Engineering, 2017,46(3):612-616.

[5] [5] GUO Sh R, YAO J H. Research on microstructure of laser cladding coatings on the surface of steam turbine rotor［J］. Laser & Infrared,2016,46(5):532-536(in Chinese).

[6] [6] CHEN L, GU Ch Zh, XIE P L.Numerical analysis of temperature field in laser cladding on tooth surface of helical gear shaft［J］.Chin-ese Journal of Lasers, 2011,38(3):0303006(in Chinese).

[7] [7] CUI L J, YU J H, GUO Sh R, et al. Laser cladding process and experimental study of pick based on Ni-based alloy［J］.Applied Laser, 2018, 38(5): 720-725(in Chinese).

[8] [8] PENARANDA X, MORALEJO S, LAMIKIZ A, et al. An adaptive laser cladding methodology for blade tip repair［J］. International Journal of Advanced Manufacturing Technology, 2017, 92 (9/12): 4337-4343.

[9] [9] CALLEJA A, TABERNERO I, EALO J A, et al. Feed rate calculation algorithm for the homogeneous material deposition of blisk blades by 5-axis laser cladding［J］. International Journal of Advanced Manufacturing Technology, 2014, 74 (9/12): 1219-1228.

[10] [10] ZHAI J H, XU H Y, LIU Zh J, et al. Experimental study on laser cladding of Ni-based alloys on spheroidal graphite cast iron surface［J］. Laser & Optoelectronics Progress, 2017, 54 (10): 101412(in Chinese).

[11] [11] ZHOU Sh F, ZENG X Y, HU Q W.Realization of laser cladding and crack-free ceramic-metal composite coatings［J］.Journal of Applied Optics,2008,29(1):76-80(in Chinese).

[12] [12] ZHENG Ch Zh. Study on crack mechanism of laser cladding Ni based alloy［J］.China Metal Bulletin, 2018, 998(11): 83-84(in Chinese).

[13] [13] CAO Y N, ZHANG Y M, JIE X H, et al.Study on control of crack in laser cladding Ni-based coating on steel［J］.Hot Working Technology, 2012, 41(18): 133-136(in Chinese).

[14] [14] FU F X, CHANG G R, ZHAO X X, et al. Influence of laser spot diameter on cladding layer cracking［J］.Laser & Optoelectronics Progress,2015,52(3):031401(in Chinese).

[15] [15] LIU P L, SUN W L, WANG K D, et al. Effect of scanning speed on the properties of laser cladding nickel-based alloy coating［J］. Laser Technology, 2018,42(6):845-848(in Chinese).

[16] [16] HAO Y B, WANG J, YANG P, et al. Microstructures and properties of tin-based babbitt metal prepared by laser cladding deposition［J］. Chinese Journal of Lasers, 2020,47(8): 0802009(in Chin-ese).

[17] [17] ZHANG F Zh, SUN W L, WANG K D, et al. Optimization of laser cladding repair process parameters for thin-wall parts［J］. Surface Technology, 2019,48(1):168-174(in Chinese).

[18] [18] LIU H F, TAN C K I, WEI Y F, et al. Laser-cladding and interface evolutions of Inconel625 alloy on low alloy steel substrate upon heat and chemical treatments［J］. Surface and Coatings Technology, 2020, 404 (12): 126607.

[19] [19] CHEN S, LI R, ZHENG Q, et al. Layered microstructure distribution and forming mechanism of laser-processed Ni-Fe-B-Si-Nb-C amorphous composite coatings［J］. Materials Transactions, 2016, 57(10):1807-1810.

[20] [20] WANG Zh Y, LIN J, LEI Y P, et al. Microstructure and properties of Stellite6 coating prepared by laser cladding［J］. Laser & Infrared,2020,50(10):1172-1177(in Chinese).