关键词: 电驱动总成差速器；交变载荷；动态啮合；疲劳寿命

Abstract: Taking the differential of an electric vehicle as the research object, a method for analyzing and predicting the fatigue life of the differential of the electric drive assembly based on the vehicle test load spectrum is proposed. The vehicle dynamics model of the target vehicle and the road topology model of the test site are established. The durable load spectrum of the electric drive assembly is iteratively generated through dynamic analysis, and then converted into the test load spectrum of the differential. The finite element model of the differential assembly is built. According to the load spectrum of the differential bench test, the stress change process of the differential in the process of variable torque and variable speed meshing is obtained, which dynamically reflects the real stress state of the differential at work. The alternating fatigue damage caused by the rapid alternating torque and speed of the differential is fully considered. The results show that the fatigue failure position of the differential shell is consistent with the fatigue failure position during the test, which provides a comprehensive and accurate reference for the design and verification of the differential structure.

Key words: Differential of electric drive assembly; Alternating load; Dynamic meshing; Fatigue life