Abstract:A software for constructing coating microstructure was developed based on the quartet structure generation set (QSGS), and the anisotropic pore microstructure of layered coating was constructed, also a software for analyzing the thermal insulation performance was developed based on thermal resistance network method. By numerical simulation, the heat transfer process within the layered coatings of different pore sizes, thicknesses and directions was analyzed, then, the coating effective thermal conductivity and thermal steady state temperature field were obtained. The results show that increasing the porosity of the coating can effectively enhance the thermal insulation performance of the coating. When porosity is constant, as the layered pores diameter decreases, its thermal insulation performance will be weakened, but the steady-state temperature distribution will be more uniform, and the structure will be more stable. When porosity is constant, as the layered pores elongating, its thermal insulation performance will be enhanced to some extent. When porosity is constant in the range of 0°-90°, as the horizontal angle of the layered pores increases, its thermal insulation performance will be weakened. And the higher the porosity, the more obvious the weaken trend.

Key words: thermal barrier coating; layered microstructure; porosity; effective thermal conductivity; thermal insulation performance