[1] Cai D Y, Zhang W H, Liu W C et al. Dissolution behavior of phase δ in Inconel 718[J]. Journal of Iron and Steel Research, 14, 61-64(2002).
[2] Qi H, Azer M, Ritter A. Studies of standard heat treatment effects on microstructure and mechanical properties of laser net shape manufactured Inconel 718[J]. Metallurgical and Materials Transactions A, 40, 2410-2422(2009).
[3] Zhang Y N, Cao X, Wanjara P et al. Oxide films in laser additive manufactured Inconel 718[J]. Acta Materialia, 61, 6562-6576(2013).
[5] Zhang B C, Liao H L, Coddet C. Microstructure evolution and density behavior of CP Ti parts elaborated by self-developed vacuum selective laser melting system[J]. Applied Surface Science, 279, 310-316(2013).
[6] Osakada K, Shiomi M. Flexible manufacturing of metallic products by selective laser melting of powder[J]. International Journal of Machine Tools and Manufacture, 46, 1188-1193(2006).
[7] Dong L X, Wang H M. Microstructure and corrosion properties of laser-melted deposited Ti2Ni3Si/NiTi intermetallic alloy[J]. Journal of Alloys and Compounds, 465, 83-89(2008).
[9] Sun J F, Yang Y Q, Wang D. Parametric optimization of selective laser melting for forming Ti6Al4V samples by Taguchi method[J]. Optics & Laser Technology, 49, 118-124(2013).
[11] Du J Y, Liu B, Liu H P. Effects of process parameters on density of GH4169 parts made by selective laser melting[J]. Hot Working Technology, 44, 28-31, 34(2015).
[12] Du K P, Zhu Y T, Shen J et al. Effect of B on preparation and selective laser melting of GH4169 alloy powder[J]. Thermal Spray Technology, 9, 28-34(2017).
[13] Bean G E, Witkin D B. McLouth T D, et al. Effect of laser focus shift on surface quality and density of Inconel 718 parts produced via selective laser melting[J]. Additive Manufacturing, 22, 207-215(2018).
[15] Editorial board of China aviation materials handbook,[M]. China aeronautical materials handbook, 341-346(2002).
[16] Liu L, Zhang Y P. ASTM method of density measurement by industrial CT[J]. Nondestructive Testing, 28, 324-326(2006).
[18] Simchi A, Petzoldt F, Pohl H. On the development of direct metal laser sintering for rapid tooling[J]. Journal of Materials Processing Technology, 141, 319-328(2003).
[19] Simchi A. Direct laser sintering of metal powders: mechanism, kinetics and microstructural features[J]. Materials Science and Engineering, 428, 148-158(2006).
[20] Yadroitsev I, Bertrand P, Smurov I. Parametric analysis of the selective laser melting process[J]. Applied Surface Science, 253, 8064-8069(2007).