锻压技术

铝合金U形臂的弯曲工艺设计及优化

英文标题：Design and optimization on aluminum alloy U-shaped arm bending process

关键词：铝合金 U形臂多向压弯楔横轧折叠

分类号：TG316

出版年,卷(期):页码：2024,49(3):27-33

摘要：

铝合金U形臂锻造工艺复杂、流程长，楔横轧后的阶梯状长轴坯料弯曲时易出现失稳、折叠和形状尺寸精度差等问题。以某汽车铝合金U形臂为研究对象，分析了其产品特点和成形工艺方案。利用Deform软件对弯曲过程进行有限元数值模拟，预测了折叠缺陷并分析了缺陷产生的原因；提出一种多向压弯工艺，结果表明,多向压弯的锻件变形均匀，无折叠缺陷，实现了头部侧向压扁，预、终锻充型效果好。基于现有的铝合金精密锻造自动锻造生产线开展了试验验证，最终制得的铝合金U形臂锻件充填良好，表面质量高，与模拟结果吻合。研究结果表明，多向压弯工艺可以提高产品的质量和材料利用率。

The forging process of aluminum alloy U-shaped arm is complicated and the flow process is long, then the stepped long-axis billet after cross wedge rolling is prone to instability, folding and poor shape and dimension accuracy when bending. Therefore, for the automobile aluminum alloy U-shaped arm, its product characteristics and forming process scheme were analyzed. Then, the finite element numerical simulation of bending process was carried out by using software Deform, and the folding defects were predicted and the causes of defects were analyzed. Furthermore, a new multi-direction bending process was proposed. The results show that the forgings subjected to multi-directional bending has uniform deformation and no folding defects, the head is lateral flattened, and the pre-forging and final forging filling effect are good. Based on the existing automatic forging production line for aluminum alloy precision forging, the experimental verification is conducted, and the final aluminum alloy U-shaped arm forgings are well filled with high surface quality, which is consistent with the simulation results. The research results indicate that the multi-directional bending process can improve product quality and material utilization rate.

基金项目：

作者简介：高丙坤（1994-），女，硕士，工程师,E-mail：605897612@qq.com;通信作者：石一磬（1982-），男，学士，研究员,E-mail：shiyiqing1005@163.com

参考文献：

[1]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 for pre-forging of L-shaped aluminum alloy controlling arm [A]. Proceedings of the 12th National Plastics Engineering Annual Conference & The 4th Global Chinese Plastic Processing Tecchnology Seminar[C]. Chongqing, 2011.

[2]张艳秋,徐福昌,单德彬.变形程度对复杂铝合金锻件组织性能的影响[J].材料科学与工艺,2009,17(6):806-809.

Zhang Y Q, Xu F C, Shan D B. Influence of deformation extent on the microstructure and mechanical properties of aluminum alloy forging with complex shape [J]. Materials Science and Technology, 2009,17 (6): 806-809.

[3]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 of automobile rear upper control arm [J]. Ordnance Materials Science and Engineering, 2022,45 (6): 70-74.

[4]高丙坤. 汽车用铝合金控制臂热成形工艺与性能研究[D].北京：中国机械科学研究总院集团有限公司,2020.

Gao B K. Hot Deformation Process and Performance of Aluminum Alloy Control Arm for Automobile [D]. Beijing：China Academy of Machinery Science and Technology Group, 2020.

[5]李鑫.铝合金弯臂锻造工艺研究及数值模拟分析[D].吉林：吉林大学，2015.

Li X. The Forging Process Research and Numerical Analysis about Car Bend Arm of Aluminum Alloy[D]. Jilin:Jilin University,2015.

[6]孙伟领. 铝合金控制臂锻造工艺优化与数值分析[D].北京：中国机械科学研究总院集团有限公司,2019.

Sun W L. Optimization and Numerical Analysis of Forging Process for Aluminum Alloy Control Arm[D]. Beijing：China Academy of Machinery Science and Technology Group, 2019.

[7]孙田田. 工艺参数对6082铝合金锻件力学性能影响规律的研究[D].上海：上海交通大学,2020.

Sun T T. Influence of Process Parameters on Mechanical Properties of 6082 Aluminum Alloy Forgings[D]. Shanghai：Shanghai Jiao Tong University,2020.

[8]贾俐俐,柯旭贵,高锦张,等. 冲压工艺与模具设计[M].北京:人民邮电出版社, 2016.

Jia L L, Ke X G, Gao J Z, et al. Stamping Technology and Mold Design [M].Beijing：Posts & Telecom Press, 2016.

[9]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 aluminum alloy thin-walled profiles [J]. Forging & Stamping Technology, 2023,48 (1): 128-135.

[10]付志强,安子军,杜凤山，等.方矩形管连续辊弯成型延伸规律[J].吉林大学学报:工学版,2015,45(2):487-493.

Fu Z Q, An Z J, Du F S, et al. Elongation of rectangular tube in continuous roll forming[J]. Journal of Jilin University:Engineering and Technology Edition, 2015,45 (2): 487-493.

[11]顾泽中,孟珂,任锟，等.支架类槽钢冷弯成形参数设计及优化[J].锻压技术,2022,47(10):90-95.

Gu Z Z, Meng K, Ren K, et al. Design and optimization on cold bending parameters for sporting channel steel [J]. Forging & Stamping Technology, 2022,47 (10): 90-95.

[12]石一磬,陈钰金,邵长斌，等. 一种金属棒料三向压弯的方法[P]. 中国：CN115870381A，2023-03-31.

Shi Y Q, Chen Y J, Shao C B, et al. A method for three-way bending of metal bars [P].China: CN115870381A，2023-03-31.

服务与反馈：

【本网站尚未开通全文下载服务】【加入收藏】