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APPLIED LASER, Volume. 44, Issue 1, 1(2024)

Numerical Simulation and Experimental Study of Temperature Field in Laser Selective Melting of NiTi Shape Memory Alloy

He Qing1, Yan Junxia1,2、*, Ou Bingxian1,3, and Meng Xiangwei1
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  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    [2] [2] WANG X B, KUSTOV S, VAN HUMBEECK J. A short review on the microstructure, transformation behavior and functional properties of NiTi shape memory alloys fabricated by selective laser melting[J]. Materials, 2018, 11(9): 1683.

    [3] [3] ELAHINIA M, SHAYESTEH MOGHADDAM N, TAHERI ANDANI M, et al. Fabrication of NiTi through additive manufacturing: A review[J]. Progress in Materials Science, 2016, 83: 630-663.

    [7] [7] LU H Z, YANG C, LUO X, et al. Ultrahigh-performance TiNi shape memory alloy by 4Dprinting[J]. Materials Science and Engineering: A, 2019, 763: 138166.

    [8] [8] LI Y L, GU D D. Thermal behavior during selective laser melting of commercially pure titanium powder: Numerical simulation and experimental study[J]. Additive Manufacturing, 2014, 1/2/3/4: 99-109.

    [9] [9] LI Z H, LI B Q, BAI P K, et al. Research on the thermal behaviour of a selectively laser melted aluminium alloy: Simulation and experiment[J]. Materials, 2018, 11(7): 1172.

    [11] [11] FOROOZMEHR A, BADROSSAMAY M, FOROOZMEHR E, et al. Finite element simulation of selective laser melting process considering optical penetration depth of laser in powder bed[J]. Materials & Design, 2016, 89: 255-263.

    [12] [12] HUSSEIN A,HAO L A, YAN C Z, et al. Finite element simulation of the temperature and stress fields in single layers built without-support in selective laser melting[J]. Materials & Design (1980-2015), 2013, 52: 638-647.

    [13] [13] YIN J E, ZHU H H, KE L D, et al. Simulation of temperature distribution in single metallic powder layer for laser micro-sintering[J]. Computational Materials Science, 2012, 53(1): 333-339.

    [15] [15] GU D D, HONG C, MENG G B. Densification, microstructure, and wear property ofin situ titanium nitride-reinforced titanium silicide matrix composites prepared by a novel selective laser melting process[J]. Metallurgical and Materials Transactions A, 2012, 43(2): 697-708.

    [16] [16] DUTIL Y, ROUSSE D R, BEN SALAH N, et al. A review on phase-change materials: Mathematical modeling and simulations[J]. Renewable and Sustainable Energy Reviews, 2011, 15(1): 112-130.

    [17] [17] LIU F C,LIN X, HUANG C P, et al. The effect of laser scanning path on microstructures and mechanical properties of laser solid formed nickel-base superalloy Inconel 718[J]. Journal of Alloys and Compounds, 2011, 509(13): 4505-4509.

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    He Qing, Yan Junxia, Ou Bingxian, Meng Xiangwei. Numerical Simulation and Experimental Study of Temperature Field in Laser Selective Melting of NiTi Shape Memory Alloy[J]. APPLIED LASER, 2024, 44(1): 1

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    Paper Information

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    Received: Aug. 29, 2022

    Accepted: --

    Published Online: Jun. 4, 2024

    The Author Email: Junxia Yan (yjx@jiangnan.edu.com)

    DOI:10.14128/j.cnki.al.20244401.001

    Topics

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