Transactions of Materials and Heat Treatment

Title：Multi-objective optimization on automobile generator pole in forging process based on response surface method

Authors： Hao Yongxing Wang Chaofeng Zhang Hongyi Feng Meiling

Unit： North China University of Water Resources and Electric Power

KeyWords： generator pole Deform-3D forging forging defects central composite experiment multi-objective optimization response surface method

ClassificationCode：TG316.3

year,vol(issue):pagenumber：2016,41(12):1-7

Abstract：

For the defects of under filling, heavy forming load and high peak value of local stress in the forging process of automobile generator pole, the generator pole forging process was numerically simulated by the software of Deform. For the optimal objective to reduce unfilled rate, forming load and peak value of local stress, and the optimal variables with blank diameter, forging temperature, extruding speed and friction condition, the second order response surface model (RSM) of three optimal objectives was set up by central composite experiment design (CCD) with four factors and five levels, and the analysis of variance (ANOVA) of RSM was carried out. Furthermore, the variance analysis was performed on the established model, and its reliability and accuracy were verified by simulated tests. The practice production indicates that generator poles with less forming defects can be obtained by combining the optimized process parameters, and a high forging accuracy of 0.5 mm can be achieved. Therefore, the peak values of forging load and local stress are deduced,the die life is prolonged and the production efficiency is improved.

Funds：

国家留学基金委地方合作项目(201308410091); 2015年度河南省基础与前沿技术研究项目（152300410215）

作者简介：郝用兴（1966-），男，博士，教授 E-mail：392741383@qq.com 通讯作者：王超峰（1990-），男，硕士 E-mail：wangchaofeng2006@163.com

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