Fuente: Polymers Polymers, Vol. 18, Pages 1343: Indicator Selection for Life Prediction of Polyimide Enameled Wire for Aviation Generators and Method for Establishing Life Curve—Based on Bayesian Nonlinear Regression
Polymers doi: 10.3390/polym18111343
Authors:
Zihan Wang
Yongzhi Liu
Tianxing Li
Peirong Zhu
Guodong Niu
Haoran Du

Insulation failure in aviation generator windings is one of the most common faults. Modern aircraft winding materials often employ polyimide enameled wire, making research on its reliability and health monitoring particularly important. Based on the relationship between temperature and aging rate described by the Arrhenius law, this study designed accelerated thermal aging experiments, testing twisted-pair, coil, and winding samples made of copper-core polyimide enameled wire. The variation in multiple parameters was visualized using B-spline fitting, ultimately identifying parallel equivalent capacitance as the most suitable parameter for monitoring generator winding insulation. It was also indicated that aging of the winding insulation coating has almost no effect on the performance of the electrical system. Finally, experimental data were processed using Bayesian nonlinear regression, where prior data were updated with new data to obtain posterior aging curves. When the IC (Cp) value reaches 1.2009 and 1.4089 times its initial value, the sample is considered to have reached 50% and 100% of its lifespan, respectively. This provides a reference approach and quantitative indicators for predicting the lifespan of polyimide enameled wire windings.