|
For the shortcoming of the basic ant colony algorithm which can only apply to discrete problems and by referring to artificial fish moving mechanism of fish swarm algorithm, a new ant colony algorithm for continuous problems was put forward. To reduce the time of process parameters optimization of sheet forming, the approximate model of RBF neural network was established between the process parameters and the forming target. Several segmental blank holder forces were set as the design variables in sheet forming, and thickening and thinning were regarded as forming target after sheet forming. Latin hypercube was used to sample, and the software of Dynaform was simulated to get the training samples. RBF neural network approximate mode between several segmental blank holder forces and forming quality was established based on the artificial fish swarm algorithm. The continuous ant colony algorithm was applied to optimize the model, and the optimal forces of several segmental blank holders were obtained. Taking oil pan for example, by contrast with the whole blank holder force, the method effectively improves the forming quality, and provides the basis for calculating the optimal blank holder force quickly.
|
|
[1] Siegert K, Zeigler M, Wagner S. Closed loop control of friction force-deep drawing process[J]. Journal of Materials Processing Technology, 1997,71(1):126-133.
[2]Hassan M A,Suenaga R, Takakura N A. Novel Process on Friction aided deep drawing using tapered blank holder divided into four segments[J]. Journal of Materials Processing Technology,2004,159(3):418-425.
[3]秦泗吉,黄晓忠,王婧.径向分块双压边圈轴对称拉深成形工艺研究[J].中国机械工程,2011,22(14):1741-1744.
Qin S J, Huang X Z, Wang J . Research on axisymmetrical deep drawing process based on radical double segmental blank-holder technique[J]. China Mechanical Engineering, 2011,22(14):1741-1744.
[4]苏娟华,张文琼,李丽春. 神经网络与正交试验法结合优化板料成形工艺[J]. 锻压技术,2009,34(1):154-146.
Su J H, Zhang W Q, Li L C. Application of network and orthogonal experiment method in optimization of sheet metal forming process technology[J]. Forging & Stamping Technology, 2009,34(1):154-156.
[5]李晓磊. 一种新型的智能算法—人工鱼群算法[D]. 杭州:浙江大学,2003.
Li X L. A New Intelligent Algorithm of Artificial Fish Swarm Algorithm[D]. Hangzhou: Zhejiang University,2003.
[6]Dorigo M, Maniezzo V C.An ant system: Optimization by a colony of cooperating agents[J].IEEE Transaction on Systems, Man Cybernet B,1996,26(1):29-41.
[7]段海滨.蚁群算法原理及其应用[M]. 北京:科学出版社,2005.
Duan H B. Principle and Application of Ant Colony Algorithm[M]. Beijing: Science Press,2006.
[8]程志刚.连续蚁群优化算法的研究及其化工应用[D]. 杭州:浙江大学,2005.
Cheng Z G. Study of Continuous ant Colony Optimization Algorithm and its Application in Chemical Engineering[D].Hangzhou: Zhejiang University,2005.
[9]张火明,高明正,张晓菲.交叉变异的连续蚁群优化算法[J]. 中国计量学院学报,2009,20(3):259-262.
Zhang H M, Gao M Z, Zhang X F. Continuous ant colony optimization algorithm based on crossover and mutation[J].Journal of China Jiliang University, 2009,20(3):259-262.
[10]杨勇,宋晓峰,王建飞,等.蚁群算法求解连续空间优化问题[J]. 控制与决策,2003,18(5):573-576.
Yang Y, Song X F, Wang J F, et al. Ant colony algorithm for continuous space optimization[J]. Control and Decision, 2003,18(5):573-576.
[11]马良.基于蚂蚁算法的函数优化[J].控制与决策,2002,(17):716-721.
Ma L . Function optimization based on Ant Algorithm[J]. Control and Decision, 2002,(17):716-721.
[12]Lee C H, Huh H. Three dimensional multi-step inverse analysis for the optimum blank desigh in sheet metal forming[J]. Journal of Material Processing Technology,1998,80(81):76-82.
[13]孙成智,陈关龙,林忠钦.各向异性屈服准则对铝合金板成形预测精度的影响[J]. 塑性工程学报,2004,11(3):59-63.
Sun C Z, Chen G L, Lin Z Q. Effects of anisotropic yield criteria on the predictionof sheet metal forming of Aluminum alloy sheet[J]. Journal of Plasticity Engineering, 2004, 11(3): 59-63.
|
