IntroductionResistance to corrosion is the decisive criterion for the selection of materials for construction of boiler elements for burning municipal and industrial waste due to the extremely aggressive environment of their operation. Therefore, boiler elements that operate in the most aggressive environments are usually subjected to weld overlaying with Ni alloys, in order to ensure the required operational life of boilers. The solidsolution strengthened nickel alloy Inconel 625 is widely used for welded coatings for these processes, as it is characterized by very good resistance to corrosion as well as good strength and weldability. Chromium is the element that enhances resistance to corrosion, especially in an oxidizing atmosphere. Therefore, it is the basic element of the 625 alloy. Moreover, Cr and especially Mo and Nb, provide solid-solution strengthening of the alloy [1,2].Weld overlaying is a process of depositing a material onto a product surface by welding methods [3]. Welded coatings have a structure typical to cast metals, characterized by the fact The aim of this work was to investigate the microsegregation and precipitates formed due to segregation in Inconel 625 arc weld overlay coatings on boiler pipes. Examination of microsegregation and precipitates were carried out by means of a scanning electron microscope (SEM) equipped with an EDS detector as well as a transmission electron microscope (TEM) equipped with a HAADF (STEM) and an EDS detectors. The presence of precipitations in the weld overlay was also confirmed with X-ray diffraction analysis (XRD) of residue in the form of powder that remained after the electrolytic dissolution of weld overlay matrix.The investigations showed that the interdendritic regions were considerably enriched during microsegregation with Nb, and less so with Mo. The distribution of Cr and Fe in the weld overlay is relatively uniform. The value of the partition coefficient k for Mo and Nb is lower than 1. Therefore, these elements segregate during solidification into the liquid and, once solidification is finished, the interdendritic regions are considerably enriched with these elements. The value of k for Cr, Ni and Fe are only slightly higher than 1. Though the Inconel 625 is a solid-solution strengthened alloy, precipitation of secondary phases occurs in weld overlays. Precipitations were identified as a Laves phase and carbonitrides (Nb, Ti)(C, N).