Transactions of Materials and Heat Treatment

Title：Influence and optimization of active die structure parameters on aluminum alloy U-shaped arm forming

Authors： Yan Zhuo1 Lai Wenxin2 Chen Yujin1 Liang Peixin1 Gao Junfeng1 Yuan Hongxia1 Shi Yiqing1 Wang Teng1

Unit： 1.China Academy of Machinery Beijing Research Institute of Mechanical & Electrical Technology Co. Ltd. Beijing 100083 China 2.Shaoxing Jinjiang Machinery Co. Ltd. Shaoxing 312085 China

KeyWords： aluminum alloy U-shaped arm three-directional press bending technology active die structure parameters forming load

ClassificationCode：TG316

year,vol(issue):pagenumber：2025,50(5):234-244

Abstract：

Aiming at the problems of large load fluctuation and end folding defects caused by irrational design of die structure parameters in the three-directional press bending process of 6082 aluminum alloy U-shaped arm, a process control strategy based on the cooperative optimization of active die structure parameters was proposed. Then, through DEFORM-3D finite element simulation, the influences of active die cavity depth h and tilt angle θ on the load distribution, stress field and forming quality in the pre-bending,bending and flattening stages were systematically analyzed. The results show that the tilt angle of cavity has a greater effect on the maximum load in the pre-bending stage. When the tilt angle of cavity θ≥80.5°, the cavity depth has a greater effect on the maximum load in the bending and flattening stage, and the optimal process parameter combination is h=80 and θ=80.5° , which reduces the total forming load by 18.7%, and the angle of billet is a minimum of 73° after pre-bending. The end folding defect after bending is effectively controlled while the maximum load of equipment is reduced. This study provides a theoretical basis for the structural optimization design of three-directional press bending die and the improvement of the forming quality for aluminum alloy U-shaped arms.

Funds：

国家科技重大专项（2024ZD0608100）

作者简介：闫卓（1999-），女，硕士，工程师，E-mail：1159694998@qq.com；通信作者：陈钰金（1984-），男，学士，正高级工程师，E-mail：chenyj8412@163.com

Reference：

［1］Benedyk J C. Aluminum alloys for lightweight automotive structures
［M］//Mallick P K. Materials, Design and Manufacturing for Lightweight Vehicles. Cambridge:Woodhead Publishing, 2010: 79-113.

［2］廖斌，张流锟，吴晓东，等. 6005A铝合金薄壁型材压弯成形有限元分析及试验
［J］. 锻压技术，2023，48（1）：128-135.

Liao B, Zhang L K, Wu X D, et al. Finite element analysis and experiment on press bending for 6005A aluminium alloy thin-walled profile
［J］. Forging & Stamping Technology, 2023，48（1）: 128-135.

［3］詹欣欣,覃祚威,陈以一,等. L形截面部分包覆钢-混凝土组合柱弱轴压弯整体稳定
［J］.建筑结构学报,2024,45(1):180-191.

Zhan X X, Qin Z W, Chen Y Y, et al. Stability of partially encased composite steel and concrete column with L-shaped section under eccentric compression around minor axis
［J］. Journal of Building Structures,2024,45(1):180-191.

［4］高丙坤，李思奇，白鹭，等.铝合金U形臂的弯曲工艺设计及优化
［J］.锻压技术，2024，49（3）：27-33.

Gao B K, Li S Q, Bai L, et al. Design and optimization on aluminum alloy U-shaped arm bending process
［J］. Forging & Stamping Technology, 2024, 49（3）:27-33.

［5］左锦荣，梅碧舟，张松，等. 铝合金轴制造技术及其在多元化领域的应用
［J］.模具制造，2024，24（12）：43-45.

Zuo J R, Mei B Z, Zhang S, et al. Aluminum alloy shaft manufacturing technology and its application in diversified fields
［J］. Die & Mould Manufacture, 2024, 24（12）: 43-45.

［6］陈钰金，徐春国，任广升，等. L形铝合金控制臂预锻数值模拟及工艺优化
［A］.第十二届全国塑性工程学术年会暨第四届全球华人塑性加工技术研讨会论文集
［C］. 重庆，2011.

Chen Y J, Xu C G, Ren G S, et al. Numerical simulation and process optimization of pre-forging of L-shaped aluminum alloy control arm
［A］. Proceedings of the 12th National Conference on Plastic Engineering and the 4th Global Chinese Plastic Processing Technology Symposium
［C］. Chongqing, 2011.

［7］陈英，李智渊，向勇，等. 基于强度折减法的边坡三维有限元稳定分析
［J］.铜业工程,2023(1):91-97.

Chen Y, Li Z Y, Xiang Y, et al. Stability analysis on 3D finite element model of slope based on strength reduction method
［J］.Copper Engineering, 2023(1):91-97.

［8］汪建武，李淑香，金彪，等. 6082铝合金汽车后上控制臂楔横轧轴坯成形模拟研究
［J］.兵器材料科学与工程， 2022，45（6）：70-74.

Wang J W, Li S X, Jin B, et al. Forming of simulation 6082 aluminum alloy cross wedge rolling shaft for automobile rear upper control ararm
［J］. Ordnance Material Science and Engineering, 2022,45（6）: 70-74.

［9］钟建华，袁志燕，刘艳霞，等. 挤压工艺参数对挤压过程影响规律的仿真模拟研究
［J］.有色金属科学与工程， 2015，6（3）：45-50.

Zhong J H, Yuan Z Y, Liu Y X, et al. Numerical simulation of effects of extrusion process parameters on extrusion process
［J］. Nonferrous Metals Science and Engineering, 2015, 6（3）: 45-50.

［10］李鹏阳，徐海峰，安武润，等.板料单点渐进成形力仿真与实验研究
［J］.应用力学学报，2015，32（6）：1062-1068, 1108.

Li P Y, Xu H F, An W R, et al. Force simulation and experimental study of the single point incremental sheet forming
［J］. Chinese Journal of Applied Mechanics, 2015, 32（6）: 1062-1068, 1108.

［11］Chang Z D, Li M, Chen J. Analytical modeling and experimental validation of the forming force in several typical incremental sheet forming processes
［J］. International Journal of Machine Tools and Manufacture, 2019,140：62-76.

［12］高贵，殷璟，孙仲辉，等. 空调冷冻阀阀体锻造成形工艺分析及优化
［J］.锻压技术，2024，49（2）：24-30.

Gao G, Yin J, Sun Z H, et al. Analysis and optimization on forging process for air conditioning freezing valve body
［J］. Forging & Stamping Technology, 2024, 49（2）: 24-30.

Service：

【This site has not yet opened Download Service】【Add Favorite】