Evaluation of residual stress in stainless steel 316L and Ti6Al4V samples produced by selective laser melting This paper investigates the residual stress distribution in SLM-made parts and suggests thermal gradient control strategies

Selective laser melting (SLM) has great potential in additive manufacturing because it enables the production of full-density complex parts with the desired inner structure and surface morphology. High temperature gradients as a result of the locally concentrated energy input lead to residual stresses, crack formation and part deformation during processing or after separation from the supports and the substrate. In this study, an X-ray diffraction technique and numerical simulation were used for investigating the residual stress in SLM samples fabricated from stainless steel 316L and Ti6Al4Valloy. Conclusions regarding directions and values of stresses in SLM objects are given.