A new calculating method of aerodynamic heating for unsteady hypersonic aircrafts with complex configuration is presented.This method,which considers the effects of high temperature chemical non-equilibrium and the heat transfer process in thermal protection structure,is based on the combination of the inviscid outerflow solution and the engineering method,where the Euler solver provides the flow parameters on boundary layer edge for engineering method in aerodynamic heating calculation.A high efficient interpolation technique,which can be applied to the fast computation of longtime aerodynamic heating for hypersonic aircraft,is developed for flying trajectory.In this paper,three hypersonic test cases are calculated,and the heat flux and temperature distribution of thermo-protection system are shown.The numerical results show the high efficiency of the developed method and the validation of thermal characteristics analysis on hypersonic aerodynamic heating. A new calculating method of aerodynamic heating for unsteady hypersonic aircrafts with complex configuration is presented. This method, which considers the effects of high temperature chemical non-equilibrium and the heat transfer process in thermal protection structure, is based on the combination of the inviscid outerflow solution and the engineering method, where the Euler solver provides the flow parameters on boundary layer edge for engineering method in aerodynamic heating calculation. A high efficient interpolation technique, which can be applied to the fast computation of longtime aerodynamic heating for hypersonic aircraft, is developed for flying trajectory.In this paper, three hypersonic test cases are calculated, and the heat flux and temperature distribution of thermo-protection system are shown. numerical results show the high efficiency of the developed method and the validation of thermal characteristics analysis on hypersonic aerodynamic heating.