In the case of SLM steel 630, the r

In the case of SLM steel 630, the retained austenite transformed into martensite under mechanical loading and caused more resistance to any further deformation [38]. Several studies attributed this transformation to various lattice defects acting as martensite nucleation sites. According to these studies, austenite to martensite transformation is a diffusionless shear transformation, and local stresses around the defects, as results of their lattice misfit with the background phase, favor the martensitic transformation at temperatures below the martensitestart and under mechanical loading condition [53–55]. For further study on the martensitic transformation and its effect on the stressstrain behaviour of steels, a comprehensive review is provided in [55]. Microstructural changes through cyclic loading were also present in some of the specimens made from SLM steel 316L. In these cases, the changes included grain growth, migration of some elements towards the grain boundaries and defects, possible austenite to ferrite transformation, austenite to martensite transformation, and a decrease in dislocation density [40,56].