Selective laser melting (SLM) is characterized by highly localized heat input and short
interaction times, which lead to large thermal gradients. In this research, nine different materials
are processed via SLM and compared. The resulting microstructures are characterized by optical
and scanning electron microscopy. Residual stresses are measured qualitatively using a novel
deflection method and quantitatively using X-ray diffraction. Microcracking, surface oxidation
and the anisotropy of the residual stress are discussed. The different phenomena interacting with
the buildup of residual stress make it difficult to distinguish the possible correlations between
material parameters and the magnitude of residual stresses.
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