Thermal stability of the cellular structure of an austenitic alloy after selective laser melting
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I. Yadroitsev and I. Smurov, “Selective laser melting technology: from the single laser melted track stability to 3D parts of complex shape,” Phys. Proc. 5, 551–560 (2010).
K. Kempena, E. Yasa, L. Thijs, J.-P. Kruth, and J. Van Humbeeck, “Microstructure and mechanical properties of selective laser melted 18Ni–300 steel,” Phys. Proc. 12, 255–263 (2011).
T. Vilaro, C. Colin, J. D. Bartoud, L. Naze, and M. Sennour, “Microstructural and mechanical approaches of the selective laser melting process applied to a nickel-based superalloy,” Mater. Sci. Eng., Ser. A 534, 446–451 (2012).
K. O. Bazaleeva, E. V. Tsvetkova, I. Yu. Smurov, I. A. Yadroitsev, E. V. Bazaleev, and Yu. G. Kostyuk, “Cellular structure in austenitic alloys prepared by selective laser melting,” Perspekt. Mater., No. 3, 55–62 (2014).
I. Yadroitsev, A. Gusarov, I. Yadroitsava, and I. Smurov, “Single track formation in selective laser melting of metal powders,” J. Mater. Proc. Technol. 210, 1624–1631 (2010).
E. V. Shelekhov and T. A. Sviridova, “Programs for X-ray diffraction analysis of polycrystals,” Met. Sci. Heat Treat., No. 8, 16–19 (2000).
Ya. S. Umanskii, Yu. A. Skakov, A. N. Ivanov, and L. N. Rastorguev Crystallography, X-ray Diffraction, and Electron Microscopy (Metallurgiya, Moscow, 1982).
S. S. Gorelik, Yu. A. Skakov, and L. N. Rastorguev, X-ray Diffraction and Electron-Optical Analysis (MISiS, Moscow, 1994).
W. Shifeng, L. Shuai, W. Qingsong, C. Yan, Z. Sheng, and S. Yusheng, “Effect of molten pool boundaries on the mechanical properties of selective laser melting parts,” J. Mater. Proc. Technol. 214, 2660–2667 (2014).
M. A. Shtremel’, Strength of Alloys. Lattice Defects: Tutorial (MISiS, Moscow, 1999).
J. Martin and R. Doherty, Stability of Microstructure in Metallic Systems (Atomizdat, Moscow, 1978).