Genetic Programming Approach to Predicting Temper Embrittlement of Rotor Steels Using Electrochemistry Technique
HANG Shenghan1,FAN Yongzhe1,CHEN Yingmin1,LI Xiangyang2
1. School of Environmental Science and Engineering, North China Electric Power University, Baoding, 071003, Hebei,China;2. Central Iron and Steel Research Institute, Beijing 100081, China
Abstract:The genetic programming approach was proposed to predict temper embrittlement of rotor steel (30Cr2MoV). Two independent data sets were obtained experimentally: training data and verifying data. Peak current density of reactivation measured by the potentiodynamic anode polarization method, temperature of electrolyte, the chemical composition of steel (Jfactor), Cr content and the grain size of steel were used as independent variables, while fracture appearance transition temperature as dependent variable. On the basis of training data, the optimum model was obtained by genetic programming, and the accuracy of it was verified with the verifying data. The prediction error of the model is within ±20 ℃. The accuracy of this model is better than that of the model obtained using multiple linear regression method. The results suggest that, the model obtained by genetic programming is feasible and effective.
张胜寒;范永哲;陈颖敏;李向阳. 遗传规划在电化学法检测转子钢热脆性中的应用[J]. 钢铁, 2006, 41(5): 0-0.
HANG Shenghan;FAN Yongzhe;CHEN Yingmin;LI Xiangyang. Genetic Programming Approach to Predicting Temper Embrittlement of Rotor Steels Using Electrochemistry Technique. Iron and Steel, 2006, 41(5): 0-0.