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APPLIED LASER, Volume. 43, Issue 10, 90(2023)

Research on Fabrication and Properties of Ni-Base Composite Coating by Laser Cladding

Yu Jinsu and He Shengxin
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    [2] [2] AHMAD SIDDIQUI A, DUBEY A K. Recent trends in laser cladding and surface alloying[J]. Optics & Laser Technology, 2021, 134: 106619.

    [4] [4] RAY A, ARORA K S, LESTER S, et al. Laser cladding of continuous caster lateral rolls: Microstructure, wear and corrosion characterisation and on-field performance evaluation[J]. Journal of Materials Processing Technology, 2014, 214(8): 1566-1575.

    [5] [5] TORIMS T, PIKURS G, RATKUS A, et al. Development of technological equipment to laboratory test In-situ laser cladding for marine engine crankshaft renovation[J]. Procedia Engineering, 2015, 100: 559-568.

    [8] [8] KAZADI P, ROOYEN C V, BURGER H. Laser based refurbishment of steel mill components[C]//IIW International Institute of Welding Congress, Stellenbosch, South Africa, [s.n.] 2006: 6.

    [9] [9] ZHU L D, WANG S H, PAN H C, et al. Research on remanufacturing strategy for 45 steel gear using H13 steel powder based on laser cladding technology[J]. Journal of Manufacturing Processes, 2020, 49: 344-354.

    [10] [10] YUE H T, LV N, GUO C G, et al. Microstructure and mechanical properties of TiC/FeCrSiB coating by laser additive remanufacturing on shearer spiral blade[J]. Surface and Coatings Technology, 2022, 431: 128043.

    [12] [12] HU Y B, CONG W L. A review on laser deposition-additive manufacturing of ceramics and ceramic reinforced metal matrix composites[J]. Ceramics International, 2018, 44(17): 20599-20612.

    [15] [15] CHEN L Y, ZHAO Y, SONG B X, et al. Modeling and simulation of 3D geometry prediction and dynamic solidification behavior of Fe-based coatings by laser cladding[J]. Optics & Laser Technology, 2021, 139: 107009.

    [16] [16] TONG Z P, PAN X Y, ZHOU W F, et al. Achieving excellent wear and corrosion properties in laser additive manufactured CrMnFeCoNi high-entropy alloy by laser shock peening[J]. Surface and Coatings Technology, 2021, 422: 127504.

    [17] [17] TIJO D, MASANTA M, DAS A K. In-situ TiC-TiB2 coating on Ti-6Al-4V alloy by tungsten inert gas (TIG) cladding method: Part-I. Microstructure evolution[J]. Surface and Coatings Technology, 2018, 344: 541-552.

    [18] [18] ALMANGOUR B, GRZESIAK D, YANG J M. In-situ formation of novel TiC-particle-reinforced 316L stainless steel bulk-form composites by selective laser melting[J]. Journal of Alloys and Compounds, 2017, 706: 409-418.

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    [1] Wang Zhen, Cui Yilong, Sun Hao, Hou Haifeng, Wang Guohao. A Review of The Research on Laser Shock Strengthening of Gear Residual Stress[J]. APPLIED LASER, 2024, 44(1): 27

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    Yu Jinsu, He Shengxin. Research on Fabrication and Properties of Ni-Base Composite Coating by Laser Cladding[J]. APPLIED LASER, 2023, 43(10): 90

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    Paper Information

    Received: May. 10, 2022

    Accepted: --

    Published Online: May. 23, 2024

    The Author Email:

    DOI:10.14128/j.cnki.al.20234310.090

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology