Microstructure development in Nd:YAG laser welding of AISI 304 and inconel 600

Abstract

In this work, the morphology of solidification of the weld zone (WZ) was studied in a joint formed from dissimilar materials, composed of austenitic AISI 304 stainless steel and Inconel 600 nickel alloy, welded with an Nd:YAG-pulsed laser. The laser beam and optical system parameters were selected with a view to obtain a weld with total penetration and good surface finish. The microstructural characterization was carried out using an optical microscope, in which a WZ was seen with total penetration, keyhole-type, presence of small pores and absence of cracks. The welded joints were also characterized by means of an electron scan microscope. Measurements taken by X-ray spectrometry for dispersion of the energy in the WZ indicated a slightly heterogeneous distribution of nickel and iron. It was seen that the start of solidification in the WZ occurred by means of epitaxial growth. The morphology of WZ solidification was basically denditric and cellular, being influenced by the temperature gradient, solidification speed and chemical composition. The variations in chemical composition and solidification morphology do not significantly alter the Vickers microhardness values in the WZ. Results obtained in the tensile tests indicate suitably effective welding values.