In recent years, the ultrasonic vibration assisted manufacture is widely used in plastic forming. The vibration brings about the friction between mold and workpiece, therefore, the surface temperature of the workpiece is raised. It can improve the material formability and reduce the forming pressure. If some manufacture processes such as embossing, welding, cutting or grinding process were combined with ultrasonic vibration system at high working temperature, products with both high precision and high quality can be obtained. In this study, an ultrasonic vibration system with high working temperature was analyzed by finite element software ANSYS. This analysis considered the piezoelectricity of the transducer as well as the material properties of the horn at high temperature. The temperature distribution was first calculated by thermal analysis. After that, this temperature distribution was input as an initial condition for modal analysis and harmonic response analysis. The resonance frequency and the vibration amplitude were obtained during the analyzing process, and the relationship between frequency, amplitude and temperature were also observed. Finally, the simulation results were compared to experimental measurement, to confirm the validity of the numerical analysis. The finite element model can be used in the components design of the ultrasonic vibration system with elevated temperature.