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APPLIED LASER, Volume. 43, Issue 4, 1(2023)

Equal Stiffness Design and Performance Research of Thin-Walled Titanium Alloy Structure Based on Selective Laser Melting

Shi Jingshuai1、*, Li Zhonghua1, Liu Bin2, Kuai Zezhou2, Li Huodong1, Chen Yanlei2, and Wen Haijun1
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  • 1[in Chinese]
  • 2[in Chinese]
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    [2] [2] HAN C J, FANG Q H, SHI Y S, et al. Recent advances on high-entropy alloys for 3D printing[J]. Advanced Materials (Deerfield Beach, Fla), 2020, 32(26): e1903855.

    [3] [3] WU H, LIANG L X, ZENG H, et al. Microstructure and nanomechanical properties of Zr-based bulk metallic glass composites fabricated by laser rapid prototyping[J]. Materials Science and Engineering: A, 2019, 765: 138306.

    [4] [4] BICI M, BRISCHETTO S, CAMPANA F, et al. Development of a multifunctional panel for aerospace use through SLM additive manufacturing[J]. Procedia CIRP, 2018, 67: 215-220.

    [5] [5] SUWANPREECHA C, ALABORT E, TANG Y T, et al. A novel low-modulus titanium alloy for biomedical applications:A comparison between selective laser melting and metal injection moulding[J]. Materials Science and Engineering: A, 2021, 812: 141081.

    [6] [6] MOHAMMED M T. Mechanical properties of SLM-titanium materials for biomedical applications:A review[J]. Materials Today: Proceedings, 2018, 5(9): 17906-17913.

    [9] [9] MUKALAY T A, TRIMBLE J A, MPOFU K, et al. A systematic review of process uncertainty in Ti6Al4 V-selective laser melting[J]. CIRP Journal of Manufacturing Science and Technology, 2022, 36: 185-212.

    [10] [10] GUSAROV A V, GRIGORIEV S N, VOLOSOVA M A, et al. On productivity of laser additive manufacturing[J]. Journal of Materials Processing Technology, 2018, 261: 213-232.

    [14] [14] TAO Z J, YANG H, LI H, et al. Quasi-static tensile behavior of large-diameter thin-walled Ti-6Al-4V tubes at elevated temperature[J]. Chinese Journal of Aeronautics, 2016, 29(2): 011403.

    [15] [15] WANG B H, CHENG L, LI D C. Study on very high cycle fatigue properties of forged TC4 titanium alloy treated by laser shock peening under three-point bending[J]. International Journal of Fatigue, 2022, 156: 106668.

    [16] [16] SHI X S, FENG X T, TENG J, et al. Effect of laser shock peening on microstructure and fatigue properties of thin-wall welded Ti-6A1-4V alloy[J]. Vacuum, 2021, 184: 109986.

    [18] [18] LU X F, LIN X, CHIUMENTI M, et al. Residual stress and distortion of rectangular and S-shaped Ti-6Al-4V parts by directed energy deposition: Modelling and experimental calibration[J]. Additive Manufacturing, 2019, 26: 166-179.

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    Shi Jingshuai, Li Zhonghua, Liu Bin, Kuai Zezhou, Li Huodong, Chen Yanlei, Wen Haijun. Equal Stiffness Design and Performance Research of Thin-Walled Titanium Alloy Structure Based on Selective Laser Melting[J]. APPLIED LASER, 2023, 43(4): 1

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    Paper Information

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    Received: Aug. 15, 2022

    Accepted: --

    Published Online: Nov. 17, 2023

    The Author Email: Jingshuai Shi (1013745455@qq.com)

    DOI:10.14128/j.cnki.al.20234304.001

    Topics

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