锻压技术

大尺寸三维曲面件多点分段成形技术

英文标题：Multi-point sectional forming technology for three dimensional surface parts with large size

作者：彭赫力于亚平李明哲李中权

分类号：TG306

出版年,卷(期):页码：2018,43(2):0-0

摘要：

介绍了大尺寸三维曲面件多点分段成形原理，测试了LF6铝合金材料性能参数，建立了双曲率凸面件多点分段成形有限元模型，阐述了多点分段成形流程，得到了双曲率凸面件多点分段成形和回弹结果。通过数值模拟分析了成形方向和过渡区长度对成形质量的影响，结果表明:从小端开始成形可以获得光顺的曲面和均匀的等效应变；过渡区长度越大，成形件表面光顺性越好，应变分布越均匀。开展了大尺寸双曲率凸面件多点分段成形实验，获得了形状轮廓和表面精度较好的成形件，验证了数值模拟的有效性和多点分段成形技术的实用性。

The principle of multi-point sectional forming for three dimensional surface parts with large size was introduced, and the material property parameters of aluminum alloy LF6 were tested. Then, the finite element model of multi-point sectional forming for double curvature convex part was built, the simulated procedure was elaborated, and the forming results and springback results of double curvature convex part for multi-point sectional forming were acquired. Furthermore, the influences of forming direction and transitional length on the forming quality were analyzed by numerical simulation. The results show that the smooth surface and uniform equivalent strain can be got by forming from the small end. However, the larger the transitional length is, the better the surface accuracy and uniform strain are, and the strain distribution is more uniform. Finally, the multi-point sectional forming experiment of double curvature convex part with large size was carried out, and the experiment part with good shape contour and surface accuracy was obtained. Thus, the validity of numerical simulation results and the practicability of multi-point sectional forming technology were verified.

基金项目：

基金项目:上海市青年科技启明星计划项目 (16QB1400800) 作者简介：彭赫力（1986-），男，博士，高级工程师 E-mail：phl12616040811@126.com 通讯作者：李中权（1964-），男，学士，博士生导师 E-mail：lizhongquan401@163.com

参考文献：

［1］李明哲, 中村敬一.基本的な成形原理の检讨(第一报：板材多点成形法の研究)
［A］.日本塑性加工春季講演会论文集
［C］. 横浜, 1992.

Li M Z, Nakamura K. Study of the basic principles (1st report: Research on Multi-point forming for sheet metal)
［A］. Proceedings of the Japanese Spring conference for Technology of Plasticity
［C］.Yokohama, 1992.

［2］李明哲, 蔡中义, 崔相吉. 多点成形——金属板材柔性成形的新技术
［J］. 金属成形工艺, 2002, 20(6): 5-9.

Li M Z, Cai Z Y, Cui X J. Multi-point forming-A new flexible forming process for sheet metal
［J］. Metal Forming Technology, 2002, 20(6): 5-9.

［3］钱直睿，李明哲，孙刚，等.球形面多道次多点成形的数值模拟研究
［J］.吉林大学学报:工学版，2007，37（2）：338-342.

Qian Z R, Li M Z, Sun G, et al. Numerical simulation on the process of sphere surface multi-step multi-point forming
［J］. Journal of Jilin University:Engineering and Technology Edition，2007，37（2）：338-342.

［4］孙刚，李明哲，崔相吉，等.不同的多点成形工艺方式对回弹的影响
［J］.北京科技大学学报，2006，28（3）：274-277.

Sun G, Li M Z, Cui X J, et al. Influence of different technology modes on spring-back in multi-point forming
［J］. Journal of University of Science and Technology Beijing，2006，28（3）：274-277.

［5］刘纯国，李明哲，隋振. 多点技术在飞机板类部件制造中的应用
［J］.塑性工程学报，2008，15(2)：109-114.

Liu C G, Li M Z, Sui Z. Application of multi-point methodology in the manufacturing of aircraft panels
［J］. Journal of Plasticity Engineering，2008，15(2)：109-114.

［6］刘学之，王汝彪. 动车组司机室外板多点拉形工艺研究
［J］.锻压装备与制造技术，2011，(2)：60-64.

Liu X Z, Wang R B. Research on multi-point stretch forming process for formed shell of electricity multiple unit cage
［J］.China Metal Forming Equipment & Manufacturing Technology，2011，(2)：60-64.

［7］李宁, 鲍海阁, 彭杉. 船船体外板多点数字化成形技术研究
［J］.机电设备，2013，(3)：93-96.

Li N, Bao H G, Peng S. Research on ship hull multi-point digital forming technology
［J］.Mechanical and Electrical Equipment, 2013, (3)：93-96.

［8］韩奇钢，付文智，冯朋晓,等.多点成形技术的研究进展及应用现状
［J］，航空制造技术，2010，(24):87-89.

Han Q G, Fu W Z, Feng P X, et al. Research development and application of multi-point forming technology
［J］.Aeronautical Manufacturing Technology, 2010,(24): 87-89.

［9］Tan F X, Li M Z, Cai Z Y. Research on the process of multi-point forming for the customized titanium alloy cranial prosthesis
［J］. Journal of Material Processing Technology, 2007, 187: 453-457.

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