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    Journals >Chinese Journal of Lasers >Volume 40 >Issue s1 >Page 103003 > Article
    • Chinese Journal of Lasers
    • Vol. 40, Issue s1, 103003 (2013)
    Effect of Process Parameters on Porous Titanium Structure and Mechanism of Porous Formation in Selective Laser Melting
    Zhang Chao1、2、*, Chen Changjun2, Wang Xiaonan3, Zhang Min2, and Jing Hemin1
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    DOI: 10.3788/cjl201340.s103003 Cite this Article Set citation alerts
    Zhang Chao, Chen Changjun, Wang Xiaonan, Zhang Min, Jing Hemin. Effect of Process Parameters on Porous Titanium Structure and Mechanism of Porous Formation in Selective Laser Melting[J]. Chinese Journal of Lasers, 2013, 40(s1): 103003 Copy Citation Text show less
    References

    [1] Oh IH, Nomura N, Masahashi N, et al.. Mechanical properties of porous titanium compacts prepared by powder sintering[J]. Scripta Materialia, 2003, 49(12): 1197-1202.

    [2] Tamai N, Myoui A, Tomita T, et al.. Novel hydroxyapatite ceramics with an inter connective porous structure exhibit superior osteoconduction in vivo[J]. J Biomed Mater Res, 2002, 59(1): 110-117.

    [3] Simske S J, Ayers R A, Bateman T A. Porous materials for bone engineering[J]. Materials Science Forum, 1997, 250: 151-182.

    [4] Oh IH, Nomura N, Hanada S. Microstructures and mechanical properties of porous titanium compacts prepared by powder sintering[J]. Materials Transactions, 2002, 43(3): 443-446.

    [5] Galante J, Rostoker W, Lueck R. Sintered fibre metal composites as a basis for attachment of implants to bone[J]. J Bone Joint Surg Am, 1971, 53(1): 101-114.

    [6] Li Hu, Yu Qifeng, Zhang Bo, et al.. Fabrication and characterization of bioactive porous titanium[J]. Rare Metal Materials and Engineering, 2006, 35(1): 154-157.

    [7] Chen Cunjing, Guo Zhimeng, Jia Chengchang, et al.. Ti-Ni porous alloys prepared by SHS process[J]. Powder Metallurgy Technology, 2003, 21(3): 135-139.

    [8] Wu Weihui, Yang Yongqiang, Wang Di, et al.. Research on variable density rapid manufacturing process based on selective laser melting technology[J]. Chinese J Lasers, 2010, 37(7): 1879-1884.

    [9] Yang Yongqiang, He Xingrong, Wu Weihui, et al.. Direct manufacturing of customized orthopedic surgery orienting model by selective laser melting[J]. Chinese J Lasers, 2009, 36(9): 2460-2464.

    [10] Fu Liding. Investigation Into Manufacturing Metal Parts Direct From Stainless Steel Powders via Selective Laser Melting[D]. Wuhan: Huazhong University of Science & Technology, 2008. 15-21.

    [11] Wang Zhiyang. Preparation of Porous 316L Stainless Steel and Porous Titanium by Selective Laser Melting[D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2010. 19-21.

    [12] Wang Y, Shen Y F, Wang Z Y, et al.. Development of highly porous titanium scaffolds by selective laser melting[J]. Materials Letters, 2010, 64(6): 674-676.

    [13] Chen Changjun, Zhang Min. The Preparation Method and Device of Porous Tantalum[P], China Patent: 201110395892.6. 2012-04-11.

    [14] Wang Yan. Microstructural Features and Metallurgical Mechanisms of Porous Nickel-Based Alloy Prepared by Selective laser Sintering[D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2011. 34-37.

    [15] Fischer P, Romano V, Weber H P, et al.. Sintering of commercially pure titanium powder with a NdYAG laser source[J]. Acta Materialia, 2003, 51(6): 1651-1662.

    [16] K Anselme. Osteoblast adhesion on biomaterial[J]. Biomaterials, 2000, 21(7): 667-681.

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    Zhang Chao, Chen Changjun, Wang Xiaonan, Zhang Min, Jing Hemin. Effect of Process Parameters on Porous Titanium Structure and Mechanism of Porous Formation in Selective Laser Melting[J]. Chinese Journal of Lasers, 2013, 40(s1): 103003
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