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Hardening of Additive Manufactured 316L Stainless Steel by Using Bimodal Powder Containing Nanoscale Fraction
Authors:Aleksandr M. Filimonov  Oleg A. Rogozin  Denis G. Firsov  Yulia O. Kuzminova  Semen N. Sergeev  Alexander P. Zhilyaev  Marat I. Lerner  Nikita E. Toropkov  Alexey P. Simonov  Ivan I. Binkov  Ilya V. Okulov  Iskander S. Akhatov  Stanislav A. Evlashin
Abstract:The particle size distribution significantly affects the material properties of the additively manufactured parts. In this work, the influence of bimodal powder containing nano- and micro-scale particles on microstructure and materials properties is studied. Moreover, to study the effect of the protective atmosphere, the test samples were additively manufactured from 316L stainless steel powder in argon and nitrogen. The samples fabricated from the bimodal powder demonstrate a finer subgrain structure, regardless of protective atmospheres and an increase in the Vickers microhardness, which is in accordance with the Hall-Petch relation. The porosity analysis revealed the deterioration in the quality of as-built parts due to the poor powder flowability. The surface roughness of fabricated samples was the same regardless of the powder feedstock materials used and protective atmospheres. The results suggest that the improvement of mechanical properties is achieved by adding a nano-dispersed fraction, which dramatically increases the total surface area, thereby contributing to the nitrogen absorption by the material.
Keywords:additive manufacturing   particle size distribution   bimodal powder   nanoparticles   Vickers microhardness
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