**Zhiyuan Yu 1, Xinmei Wang 1, Fuqian Yang 2,\*, Zhufeng Yue <sup>1</sup> and James C. M. Li <sup>3</sup>**


Received: 7 November 2020; Accepted: 27 November 2020; Published: 29 November 2020

**Abstract:** Rafting is an important phenomenon of the microstructure evolution in nickel-based single crystal superalloys at elevated temperature. Understanding the rafting mechanism and its effect on the microstructure evolution is of great importance in determining the structural stability and applications of the single crystal superalloys. Phase-field method, which is an excellent tool to analyze the microstructure evolution at mesoscale, has been gradually used to investigate the rafting behavior. In this work, we review the crystal plasticity theory and phase-field method and discuss the application of the crystal plasticity theory and phase-field method in the analysis of the creep deformation and microstructure evolution of the single crystal superalloys.

**Keywords:** rafting behavior; phase-field simulation; crystal plasticity theory; mechanical property
