from the conferences organized by TANGER Ltd.
Currently, nickel heat-resistant single-crystal (SX) alloys of the second generation are the most popular in the production of gas turbine blades. Direct crystallization technology for manufacturing of SX turbine blades is associated with the inability to fully utilize the potential of the alloy. Such a limitation is caused by the formation of shrinkage micropores as well as limited geometrical complexity of part. Selective laser melting process can be utilized to overcome this problem. The influence of the selective laser melting process parameters on the microstructure of compact samples was investigated. Several sets of laser processing parameters were selected with the same value of volume energy density, hatch distance, but different scanning speed and laser power. The relationship between the laser bed fusion parameters and the width of gamma/gamma’ -phases was determined.
Keywords: Selective laser melting, single crystal alloys, powder metallurgy, additive manufacturing© This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.