Microstructure and Anisotropy of the Mechanical Properties of 316L Stainless Steel Fabricated by Selective Laser Melting

Microstructure and Anisotropy of the Mechanical Properties of 316L Stainless Steel Fabricated by Selective Laser Melting

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Significant anisotropy in mechanical properties was observed in 316L stainless steel Acteoside and ursolic acid synergistically protects H2O2-induced neurotrosis by regulation of AKT/mTOR signalling: from network pharmacology to experimental validation (SS) that was subjected to selective laser melting (SLM) to produce a hierarchical structure, composed of molten pool, columnar grains, and a cellular substructure.Such anisotropy was induced by the geometric relationship between the boundary of the molten pool and the tensile force.The in situ tensile test showed initial deformation rapidly occurred at the boundary of the molten pool, followed by strain localization, and a lower ductility was obtained when loaded in the longitudinal direction (perpendicular to the molten pool).

By contrast, the deformation was significantly constrained because of the geometry of the boundary of the molten pool, and substantial Study and restoration of the costume of the HuoLang (Peddler) in the Ming Dynasty of China deformation occurred in the cellular substructure during loading in transverse direction (parallel to the molten pool).Finally, the quantitative analysis revealed that the high-level strength was attributed to the high-density dislocations and the fine cellular substructure.