摘要
为解决锻造铝合金控制臂的产品质量低、试验优化周期长等问题,以某型号汽车铝合金控制臂典型零件为研究对象,采用逆向工程手段优化终锻件的结构设计,结合Forge有限元分析计算软件进一步优化工艺方案及模具结构,并进行试生产验证。试生产结果表明:优化工艺方案及模具结构后,锻件填充性良好,无折叠和缩孔缺陷,材料利用率提高了11%。对试生产样件进行宏观分析及力学性能测试,分析结果表明:热处理后试样的组织均匀、晶粒细小、力学性能明显提高。前述基于有限元模拟和逆向工程结合的锻造工艺与模具结构优化方法,能够有效地提高产品合格率、材料利用率,缩短试验周期,降低生产成本,为此类零件锻造工艺的制定提供了重要参考。
Typical parts for a certain type of automobile aluminum alloy control arm were taken as the research object to solve the problems of low product quality and long test optimization cycle of forged aluminum alloy control arm.Reverse engineering mean was used to opti-mize the structure design of final forgings,combined with Forge finite element analysis and calculation software,the process plan and die structure were further optimized,and the trial production verification was finally conducted.The results of the trial production show that the forgings are well filled without folding and shrinkage defects,and the material utilization rate is increased by 11%after optimizing the process plan and die structure.Macro-analysis and mechanical performance tests were conducted on the trial production samples.The analysis results show that the samples have a uniform structure,fine grains and significantly improved mechanical properties after heat treatment.The aforementioned method based on the combination of finite element simulation and reverse engineering to optimize the forg-ing process and die structure can effectively improve the product qualification rate and material utilization rate,shorten the test cycle,and reduce the production costs,which provide an important reference for the formulation of forging process for such parts.
作者
谢映光
梁满朝
王成磊
梁朝杰
林德民
陈中敢
Xie Yingguang;Liang Manchao;Wang Chenglei;Liang Chaojie;Lin Demin;Chen Zhonggan(School of Materials Science and Engineering,Guilin University of Electronic Technology,Guilin 541004,China;School of Vocational and Technical Normal,Guangxi Normal University,Guilin 541004,China;Guangxi Mingxin Chassis Parts Co.,Ltd.,Guilin 541004,China)
出处
《锻压技术》
CAS
CSCD
北大核心
2021年第7期7-13,共7页
Forging & Stamping Technology
基金
广西自然科学基金资助项目(2018GXNSFAA281244,2020GXNSFAA297060)
中国博士后科学基金面上资助项目(2020M681092)
湖南省科技创新计划项目(2018JJ5031)
桂林市科学研究与科技开发项目(20170302,2020010903)
电子信息材料与器件教育部工程研究中心(EIMD-AB202009)
广西电子信息材料构效关系重点实验室(桂林电子科技大学)资助(201016-Z)
桂林电子科技大学研究生教育创新计划项目(2020YCXS118)。
关键词
锻造
6082铝合金
控制臂
逆向工程
有限元模拟
forging
6082 aluminum alloy
control arm
reverse engineering
finite element simulation
