Desulfurization Mechanism Of Molten Ni-Base Superalloy Containing Al Using Cao Rod

It is required to reduce the lifetime cost of turbine blades. To achieve the cost reduction, a refining and recycling method of scrapped turbine blades is proposed. For the establishment of the method, desulfurization mechanism of Ni-base superalloy by solid CaO was studied. 500 g of superalloy containing sulfur was heated in a vacuum induction furnace and kept at 1600 degrees C. A CaO rod was inserted into the molten alloy and held for 600 s. After the experiment, sulfur content in the alloy decreased from 200 ppm to 54 ppm. On the surface of the CaO rod after the experiment, only Ca, O, Al, and S were found by EPMA analysis. Especially, Al and S were distributed at the surface and grain boundaries of the rod. By powder XRD analysis, CaO, CaS and 3CaO center dot Al2O3 were identified as constituent phases on the rod. The desulfurization mechanism of superalloy at 1600 degrees C is supposed to be three steps: (1) Al and S in the alloy react with CaO to generate CaS and Al2O3, respectively. (2) Al2O3 melts with CaO as liquid slag. (3) CaS is captured by the slag, therefore, sulfur is removed from the alloy.