Multi-Objective Optimization for Tandem Cold Rolling Schedule 被引量：7

Multi-Objective Optimization for Tandem Cold Rolling Schedule

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摘要 Considering the multivariable, strong-coupled, and nonlinear features of tandem cold rolling mill, a mathematical model of multi-objective optimization was built to facilitate the design of new systems aiming at equating the relative load, preventing slip, and obtaining best shape. BP （back propagation） neural network based on Levenberg- Marquardt algorithm was used for predicting the rolling force. The multi-objective fuzzy theory and method were introduced during the optimization. With an example of 1 370 mm tandem cold rolling mill, the rolling schedule of the common rolling, the single-objective optimization design, and the multi-objective fuzzy optimization design were compared with each other. The results generated from the case study showed that the proposed approach could significantly decreased the values of three objective functions simultaneously and the performance of the optimal rolling schedule was satisfactory and promising. Moreover, the capability and usefulness of fuzzy application in tandem cold rolling schedule were clearly demonstrated. Considering the multivariable, strong-coupled, and nonlinear features of tandem cold rolling mill, a mathematical model of multi-objective optimization was built to facilitate the design of new systems aiming at equating the relative load, preventing slip, and obtaining best shape. BP （back propagation） neural network based on Levenberg- Marquardt algorithm was used for predicting the rolling force. The multi-objective fuzzy theory and method were introduced during the optimization. With an example of 1 370 mm tandem cold rolling mill, the rolling schedule of the common rolling, the single-objective optimization design, and the multi-objective fuzzy optimization design were compared with each other. The results generated from the case study showed that the proposed approach could significantly decreased the values of three objective functions simultaneously and the performance of the optimal rolling schedule was satisfactory and promising. Moreover, the capability and usefulness of fuzzy application in tandem cold rolling schedule were clearly demonstrated.

作者 YANG Jing-ming ZHANG Qing CHE Hai-jun HAN Xin-yan

机构地区 Key Laboratory of Industrial Computer Control Engineering of Hebei Province

出处《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2010年第11期34-39,共6页

基金 Item Sponsored by National Key Technology Research and Development Programin 11th Five-Year Plan of China(2007BAF02B12)

关键词 rolling schedule tandem cold rolling neural network multi-objective fuzzy optimization rolling schedule tandem cold rolling neural network multi-objective fuzzy optimization

分类号 O224 [理学—运筹学与控制论] TG333.72 [金属学及工艺—金属压力加工]

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