锻压技术

铝合金全框门外板的回弹分析与补偿

英文标题：Springback analysis and compensation on aluminum alloy door outer pannel with full frame

作者：王强周卫国伍二付家焱

分类号：TG386

出版年,卷(期):页码：2024,49(5):67-75

摘要：

以某车型铝合金全框门外板为例，通过对比Autoform软件中自带的free springback、仅1个支撑夹紧点的Constrained springback以及现场零件的真实回弹结果，寻求最佳回弹分析及补偿方案。前期同步工程阶段，确定了影响回弹因素的构成及重点工序，对OP20拉延工序工艺片体进行补充，OP50翻边工序采用夹料翻边机构改善回弹趋势，并使用仅1个支撑夹紧点的Constrained springback对软件自带的free springback进行可靠性验证，同时对检具测量姿态下和车身装配姿态下的回弹趋势进行了校核。实际调试阶段，对比了前期CAE仿真结果，通过减少压应力、增加刚性、A面补偿等措施，控制压料面上的回弹，减少后序符型问题，确保回弹控制在一定范围内。最后，通过门内板分总成的反向矫形，促使门总成达到精度要求。

For the aluminum alloy door outer panel with full frame of a certain vehicle model, the optimal springback analysis and compensation scheme were sought by comparing the built-in free springback in software Autoform, Constrained springback with only one support clamping point, and the actual springback results of the parts on site. Then, during the early synchronous engineering phase, the combination of factors affecting springback and the critical processes were identified, and the process sheet for the OP20 drawing process was supplemented. Furthermore, the springback trend in the OP50 flanging process adept by a clamping flanging mechanism was improved, and the reliability of the built-in free springback in the software was verified by Constrained springback with only one support clamping point. Finally, the springback trend under the measuring posture of measuring devices and the assembly posture of vehicle body was checked. The results of the actual debugging phase show that compared with the previous CAE simulation results, through reducing compressive stress, increasing rigidity and A-face compensation, the springback on the pressurized surface is controlled, and the problem of post-order pattern is reduced to ensure that the springback is controlled within an acceptable range. Thus, the accuracy requirements of the door assembly are achieved by the reverse correction of the door inner panel sub assembly.

基金项目：

作者简介：王强（1988-），男，学士，高级工程师 E-mail：mc_wangq@163.com

参考文献：

［1］张健,闫巍,王刚,等.铝合金车门外板冷冲压成形工艺及数值模拟
［J］.塑性工程学报,2022,29(5):45-52.

Zhang J,Yan W,Wang G,et al.Cold staming process and numerical simulation of aluminum alloy auto outer door pannel
［J］.Journal of Plasticity Engineering,2022,29(5):45-52.

［2］李学坤,张秀利,吴丰军,等.整体式车门外板窗框回弹控制
［J］.模具工业,2021,47(8):38-41.

Li X K,Zhang X L,Wu F J,et al.Springback control of window in frame integral door outer pannel
［J］.Die & Mould Industry,2021,47(8):38-41.

［3］杜武昌,唐远柱,夏迎飞.基于重力分析对车门外板RPS点位优化的应用
［J］.模具工业,2022,48(1):61-64.

Du W C,Tang Y Z,Xia Y F.Application of RPS point position optimization for car door outer plate based on gravity analysis
［J］.Die & Mould Industry,2022,48(1):61-64.

［4］张茜,刘淑影,牛星辉,等.基于Dynaform的DP600高强钢U形弯曲回弹影响因素研究
［J］.模具制造,2020,20(4):32-35.

Zhang Q,Liu S Y,Niu X H,et al.Research on influence factors of DP600 high strength steel U-BEND springback based on Dynaform
［J］.Die & Mould Manufacture,2020,20(4):32-35.

［5］霍会荣,杨欢,苏飞宇,等.外覆盖件冲压模具符型
［J］.锻造与冲压,2023,(8):58-60.

He H R,Yang H,Su F Y,et al.Fitness to the profile of the stamping die of the outer covering part
［J］.Forging & Metalforming,2023,(8):58-60.

［6］覃显峰,邓国朝.侧围尾灯翻边问题的解决方法
［J］.模具制造,2022,22(1):20-22.

Qin X F,Deng G C.Solution on flanging problem for the side wall tail lamp
［J］.Die & Mould Manufacture,2022,22(1):20-22.

［7］赵子海,孟宇轩,江克洪,等.铝后门外板回弹补偿措施研究
［J］.模具工业,2020,46(11):37-40.

Zhao Z H,Meng Y X,Jiang K H,et al. Research on compensation measures for rebound of aluminum rear door outer panel
［J］.Die & Mould Industry,2020,46(11):37-40.

［8］陈建,翁兆廷.汽车覆盖件检具开发技术
［J］.模具制造,2019,19(6):67-71,74.

Chen J,Wong Z T.Development technology of checking fixture for automobile pannel
［J］.Die & Mould Manufacture,2019,19(6):67-71,74.

［9］陈振教,朱寅,周驰,等.模面曲率对综合补偿系数的影响
［J］.电加工与模具,2009,(6):61-63.

Chen Z J,Zhu Y,Zhou C,et al.The influence of mold surface curvature and comprehensive compensation coefficient
［J］.Electromachining & Mould,2009,(6):61-63.

［10］汤云翔.汽车大型外覆盖件冲压拉延成形仿真与冲压工艺参数优化技术研究
［D］.杭州:浙江大学,2022.

Tang Y X.Simulation and Optimization of Stamping Process Parameters for Large-sized Automotive Outer Coverings: A Technical Study
［D］.Hangzhou:Zhejiang University,2022.

［11］秦亚浩,陈文波,王少亚,等.浅谈车身钣金材料利用率提升方案研究
［J］.时代汽车,2023,(20):149-151,155.

Qin Y H,Chen W B,Wang S Y,et al.A study of body sheet metal material utilization rate improvement program
［J］.Era Automotive,2023,(20):149-151,155.

［12］鲜光斌,罗琳,夏华杰,等.浅谈门盖压合总成件平度调试的方法
［J］.模具制造,2014,14(5):25-29.

Xian G B,Luo L,Xia H J,et al.The door cover assembly method of flush debugging
［J］.Die & Mould Manufacture,2014,14(5):25-29.

服务与反馈：

【文章下载】【加入收藏】