OBRABOTKAMETALLOV Vol. 26 No. 3 2024 205 MATERIAL SCIENCE The eff ect of technological parameters on the microstructure and properties of the AlSiMg alloy obtained by selective laser melting Natalia Saprykina 1, a, *, Alexandr Saprykin 1, b, Yurii Sharkeev 2, c, Egor Ibragimov 1, d 1 National Research Tomsk Polytechnic University, 30 Lenin Avenue, Tomsk, 634050, Russian Federation 2 Institute of Strength Physics and Materials Sciences SB RAS, 2/4, pr. Akademicheskii, Tomsk, 634055, Russian Federation a https://orcid.org/0000-0002-6391-6345, saprikina@tpu.ru; b https://orcid.org/0000-0002-6518-1792, sapraa@tpu.ru; c https://orcid.org/0000-0001-5037-245X, sharkeev@ispms.tsc.ru; d https://orcid.org/0000-0002-5499-3891, egor83rus@tpu.ru Obrabotka metallov - Metal Working and Material Science Journal homepage: http://journals.nstu.ru/obrabotka_metallov Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science. 2024 vol. 26 no. 3 pp. 192–207 ISSN: 1994-6309 (print) / 2541-819X (online) DOI: 10.17212/1994-6309-2024-26.3-192-207 ART I CLE I NFO Article history: Received: 05 June 2024 Revised: 17 June 2024 Accepted: 28 June 2024 Available online: 15 September 2024 Keywords: Selective laser melting Metal Powder Porosity Scanning strategy Modes of selective laser melting Microhardness Energy deposition Aluminum-silicon-magnesium alloy system Funding The research was carried out at the expense of a grant from the Russian Science Foundation No. 22-29-01491, https://rscf.ru/project/22-29-01491/ Acknowledgements Authors would like to thank to Ph.D. M.A. Khimich, Ph.D. V.V. Chebodaeva, I.A. Glukhov for their help in conducting research. The equipment of the NMNT TPU Central Control Center was used in the work. ABSTRACT Introduction. The development of additive technologies is aimed at the synthesis of new powder compositions for selective laser melting plants, the study of the eff ect of mode parameters on the stable quality of products. The purpose of this work is to study the eff ect of the scanning strategy on the microstructure, elemental composition, porosity and density of specimens obtained by selective laser melting from non-spherical powders (Al — 91 wt. %, Si — 8 wt. %, Mg — 1 wt. %), subjected to special preparation to determine the optimal conditions for selective laser melting. The research methods are methods of X-ray diff raction and X-ray phase analysis, transmission electron microscopy. The paper examines specimens formed using four diff erent scanning strategies. Results and discussions. A promising aluminum alloy AlSi8Mg is developed for selective laser melting. The material has good manufacturability and low powder cost. The technological parameters of melting make it possible to form a thin structure with a low level of porosity. The mechanism of infl uence of the scanning strategy on porosity, surface morphology, relative density and microstructure is investigated. A specimen from the AlSi8Mg powder composition with a high relative density of 99.97 % is produced by selective laser melting with an energy density of 200 J/mm3, a specimen scanning circuit when the direction of laser movement changes by an angle of 90° each odd layer. It is proved that the density of the AlSiMg alloy depends on the scanning strategy used. The calculated density of the specimen was 2.5 g/cm3, which corresponds to the density of silumin. Analysis of SEM images and maps of the distribution of elements (Al, Mg, Si) of the specimens showed that diff erent specimen formation strategies do not aff ect the nature of silicon distribution. A unique grain structure is observed in the resulting AlSi8Mg alloy. The melt pool consists of small grains along the border and large grains in the center. The formation of fi ne grains is explained by the addition of Si and the high cooling rate during selective laser melting. For citation: Saprykina N.А., Saprykin A.А., Sharkeev Y.P., Ibragimov E.А. The eff ect of technological parameters on the microstructure and properties of the AlSiMg alloy obtained by selective laser melting. Obrabotka metallov (tekhnologiya, oborudovanie, instrumenty) = Metal Working and Material Science, 2024, vol. 26, no. 3, pp. 192–207. DOI: 10.17212/1994-6309-2024-26.3-192-207. (In Russian). ______ * Corresponding author Saprykina Natalia A., Ph.D. (Engineering), Associate Professor National Research Tomsk Polytechnic University, 30 Lenin Ave., 634050, Tomsk, Russian Federation Tel.: +7 923 49-72-483, e-mail: saprikina@tpu.ru
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