Influence of laser powder bed fusion scanning pattern on residual stress and microstructure of alloy 718

[Display omitted] •Detail microstructural analysis using electron microscopy and synchrotron X-Ray diffraction was done.•Four phases were identified and their volume fraction was quantified.•Residual stresses were evaluated and the problematics of stress free sample was discussed in detail.•It was observed that the selection of the scanning path can have same effect as a change of the processing parameters. A comprehensive investigation is undertaken on the effect of laser scanning pattern on the microstructure of cylindrical samples made of Alloy 718 processed by Laser Powder Bed Fusion. It is observed that the common alternate direction scanning of the laser results in a more homogeneous microstructure than the less common concentric line scans where significant microstructural heterogeneities are seen between the edges and the center of the sample. The investigation focuses on the precipitation, crystallographic texture, grain size, grain morphology and residual stresses utilizing synchrotron X-ray diffraction, neutron diffraction and electron microscopy. The heterogeneous microstructure of the sample processed with the concentric laser pattern influences the chemical composition of the matrix, which alters the reference “strain free” interplanar spacing used for evaluating the residual strain. The investigation underlines the significance of the processing parameters on the homogeneity of the microstructure and the effect of the chemical variations on the determination of residual stresses in materials such as Alloy 718, where strong local chemical variations occur because of different types and extent of precipitation.