Misorientation related microstructure at the grain boundary in a nickel-based single crystal superalloy

The mechanical properties of nickel-based single crystal superalloys deteriorate with increasing mis-orientation, thus the finished product rate of the casting of single crystal turbine airfoils may be reduced due to the formation of grain boundaries especially when the misorientation angle exceeds to some extent. To this day, evolution of the microstructures at the grain boundaries with misorientation and the relationship between the microstructures and the mechanical properties are still unclear. In this work a detailed characterization of the misorientation related microstructure at the grain boundary in DD6 single crystal superalloy has been carried out using scanning electron microscopy (SEM) and transmission electron microscopy (TEM) techniques; the elemental distribution at the grain boundaries has been analyzed by energy dispersive (EDS) X-ray mapping; and the effect of precipitation of mu phases at the grain boundary on the mechanical property has been evaluated by finite element calculation. It is shown that the proportion of gamma phase at the grain boundaries decreases, while the proportion of gamma' phase at the grain boundaries increases with increasing misorientation; the mu phase is precipitated at the grain boundaries when the misorientation angle exceeds about 10 degrees and thus it could lead to a dramatic deterioration of the mechanical properties, as well as that the enrichment of Re and W gradually disappears as the misorientation angle increases. All these factors may result in the degradation of the mechanical properties at the grain boundaries as the misorientation increases. Furthermore, the finite element calculation confirms that precipitation of mu phases at the grain boundary is responsible for the significant deterioration of the mechanical properties when the misorientation exceeds about 10 degrees. This work provides a physical imaging of the microstructure for understanding the relationship between the mechanical properties and the misorientation of the grain boundaries in the single crystal superalloy. Based on our study we hope that we can offer some scientific basis for further improvement of the nickel-based single crystal superalloys. (C) 2015 Elsevier B.V. All rights reserved.