The goal of this paper was to determine microstructural changes which occur during the production of a seam pipe from sheet metal 0.5 mm thick, made of austenitic stainless steel grade X2CrNi18-9. First part of the paper contains the classification of stainless steels, their mechanical properties, chemical properties and areas of application. Behavior of various stainless steels during welding was discussed in detail. Second part of the paper describes the production process of a seam pipe, which is made by forming sheet metal into a tube, welding, pulling and heat treating. The final product is a pipe with the outside diameter of 8 mm and pipe wall thickness of 0.5 mm. Qualitative and quantitative analysis of the microstructure was conducted on metallographic samples after each phase of production. The microstructure of starting material is completely austenitic. Microhardness is a bit lower in the rolling direction than in the perpendicular direction. After the sheet metal is formed into a pipe, no microstructural changes were observed. The metallographic analysis determined that the quality of the welded joint is adequate. The weld shape is correct and the solidification line is clearly visible. Typical cast microstructure of the weld metal does not contain any anomalies. The heat affected zone contains a small quantity of unwanted phases which precipitated along the austenitic grain boundaries. Heat ingress during welding lowered the base material microhardness. Microhardness of the welded joint is higher than the starting material. Pulling is done to achieve the desired pipe shape and dimensions of the pipe. Squashing of the base material and deformation of the welded joint were observed after pulling. This caused the microhardness to rise. Annealing at 1050 °C caused the heat affected zone microstructure to become homogenous and it reduced all residual stresses, which resulted in reduction of microhardness.