Functionally graded stainless steel fabricated by direct laser deposition: Anisotropy of mechanical properties and hardness

Abstract

Direct laser metal deposition is a kind of advanced rapid manufacturing technology, which can produce near net shape parts by depositing metal powders layer by layer. This study demonstrates fabrication, the anisotropy of mechanical properties and hardness of a graded steel. The characteristics of constituent phases, microstructure,mechanical anisotropy, andmicrohardness were investigated using electron backscatter diffraction, optical microscopy, tensile test machine, and microhardness tester. It was found that the graded steel is dense and free of cracks. The crystal structures of the as-built samples evolved in three grades from fcc structures to fcc + bcc structures and then to bcc + fcc structures. Samples in x and z directions showed obvious mechanical anisotropy. The samplesmachined in x direction showed higher strength and lower elongation than thosemachined in z direction due to the presence of lack-of-fusion pores and the highermetallurgical bonding between layers in the x direction. Themicrohardness of the as-built samples increased along the cross section from the substrate (159.7 HV) to the top surface (545.4 HV).