锻压技术

金属板件层内渐进成形技术

英文标题：In-layer incremental forming technology of metal sheet

作者：武鹏飞1 2 王进1

单位：1.青岛理工大学机械与汽车工程学院山东青岛 266000 2.临沂市经济学校山东临沂 276000

分类号：TG306

出版年,卷(期):页码：2025,50(5):120-128

摘要：

提出一种新型的层内渐进成形技术,使用数值模拟方法对比分析了6061铝合金板件在普通渐进成形与层内渐进成形工艺下的等效应力、等效应变、板件厚度及均匀度和轴向力的分布情况，并通过实验验证了数值模拟结果和板件成形质量。结果表明，层内渐进成形的板件的等效应力、等效应变、板件厚度和轴向力较均匀。其中，等效应力、等效应变和轴向力的数值和波动范围均较小，且明显优于普通渐进成形，成形精度也优于普通渐进成形，但在固定路径中所测得的板件平均厚度小于普通渐进成形，且成形效率较低。层内渐进成形提升了成形精度和成形质量，一定程度上改善了渐进成形的缺点，为柔性加工提供了一种新的加工方式。

A novel in-layer incremental forming technology was proposed. Then, the distributions of equivalent stress, equivalent strain, sheet thickness and uniformity, and axial force of 6061 aluminum alloy sheet under ordinary incremental forming and in-layer incremental forming processes were compared and analyzed, and the numerical simulation results and sheet forming quality were verified by experiments. The results show that the equivalent stress, equivalent strain,sheet thickness and axial force of the sheet formed by in-layer incremental forming are relatively uniform. Among them, the values and fluctuation ranges of equivalent stress, equivalent strain and axial force are smaller, significantly better than those of ordinary incremental forming. The forming accuracy is also better than that of ordinary incremental forming. However, the average thickness of sheet measured in the fixed path is less than that of ordinary incremental forming, and the forming efficiency is low. Thus, the in-layer incremental forming improves the forming accuracy and forming quality,and partially overcomes the disadvantages of incremental forming, providing a new processing method for the flexible processing.

基金项目：

山东省自然科学基金资助项目（2019GGX102023）

作者简介：武鹏飞（1990-），男，硕士研究生，讲师，E-mail：424701512@qq.com；通信作者：王进（1978-），男，博士，教授，E-mail：wangjin@qut.edu.cn

参考文献：

［1］松原茂夫. 值制禦逐次成形法
［J］. 塑性と加工, 1994, 35(406):1258-1263.

Matsubara M F. Value controlled progressive forming method
［J］. Plastic Processing, 1994, 35 (406): 1258-1263.

［2］松原茂夫. 板材の逐次张出レ绞り成形
［A］. 日本塑性加工学会.平成7年度塑性加工春季讲演会论文集
［C］.日本, 东京: 日本塑性加工学会, 1995.

Matsuhara M F. Progressive stretching and twisting forming of sheet metal
［A］. Japanese Plastic Processing Society. Paper Collection of the 7th Heisei Plastic Processing Spring and Season Lecture
［C］. Tokyo, Japan: Japanese Plastic Processing Society, 1995.

［3］文怀兴, 张斌, 史鹏涛. 板料厚度对单点渐进成形加工精度的影响
［J］. 热加工工艺, 2018, 47(5): 149-152.

Wen H X, Zhang B, Shi P T. Influence of sheet thickness on processing precision of single point processing forming
［J］. Hot Working Technology,2018, 47(5): 149-152.

［4］Bansal A, Lingam R, Yadav S K, et al. Prediction of forming forces in single point incremental forming
［J］. Journal of Manufacturing Processes,2017, 28(3):486-493.

［5］秦勤, 何流, 李程, 等. 铜铝复合板渐进成形回弹缺陷研究
［J］. 中国机械工程, 2021, 32 (3): 348-356.

Qin Q, He L, Li C, et al. Research on springback defects in incremental forming of Cu-Al bimetal
［J］. China Mechanical Engineering, 2021, 32 (3): 348-356.

［6］韦红余, 胡铭明, 高霖, 等. 圆锥形渐进成形制件成形精度研究
［J］. 机械工程学报,2010, 46(9):193-198.

Wei H Y, Hu M M, Gao L, et al. Investigation on forming accuracy of cone type sheet metal incremental forming parts
［J］. Journal of Mechanical Engineering, 2010, 46 (9): 193-198.

［7］Ambrogio G, Costantino I, De Napoli L, et al. Influence of some relevant process parameters on the dimensional accuracy in incremental forming: A numerical and experimental investigation
［J］. Journal of Material Processing Technology, 2004, 153-154:501-507.

［8］Gulati V, Aryal A, Katyal P, et al. Process parameters optimization in single point incremental forming
［J］. Journal of The Institution of Engineers (India): Series C, 2016, 97:185-193.

［9］赵新海, 司志渊, 李梦平. 激光辅助渐进成形工艺数值模拟分析
［J］. 装备机械, 2024(2): 92-96.

Zhao X H, Si Z Y, Li M P. Numerical simulation analysis of laser-assisted progressive forming process
［J］. The Magazine on Equipment Machinery, 2024(2): 92-96

［10］肖旭东, 王永军, 张纪春, 等. 金属板料点压渐进成形试验与模拟研究
［J］. 机械工程学报, 2013, 49(16):107-113.

Xiao X D, Wang Y J, Zhang J C, et al . Experimental and simulation Research on sheet metal incremental pressing forming
［J］. Journal of Mechanical Engineering, 2013, 49(16): 107-113.

［11］Malhotra R, Cao J, Beltran M, et al. Accumulative-DSIF strategy for enhancing process capabilities in incremental forming
［J］. CIRP Annals Manufacturing Technology, 2012, 61(1):251-254.

［12］Kim T J, Yang D Y. Improvement of formability for the incremental sheet metal forming process
［J］. International Journal of Mechanical Sciences, 2000, 42(7):1271-1286.

［13］Hussain G, Gao L. A novel method to test the thinning limits of sheet metals in negative incremental forming
［J］. International Journal of Machine Tools and Manufacture, 2007, 47(3-4):419-435.

［14］Duflou J R, Callebaut B, Verbert J, et al. Improved SPIF performance through dynamic local heating
［J］. International Journal of Machine Tools and Manufacture, 2008, 48(5):543-549.

［15］王进, 宋立军, 李丽华, 等. 成形工具转动渐进成形板料温升的数值模拟研究
［J］. 热加工工艺, 2015, 44(23):133-136.

Wang J, Song L J, Li L H, et al. Numerical simulation research on sheet temperature rise of rolling incremental sheet forming
［J］. Hot Working Technology, 2015, 44 (23): 133-136.

［16］Guzmán C F, Gu J, Duflou J, et al. Study of the geometrical inaccuracy on a SPIF two-slope pyramid by finite element simulations
［J］. International Journal of Solids and Structures, 2012,49(25):3594-3604.

［17］Bhattacharya A, Maneesh K, Venkata Reddy N, et al. Formability and surface finish studies in single point incremental forming
［J］. Journal of Manufacturing Science and Engineering,2011,133(6):061020.

［18］Yamashita M, Gotoh M, Atsumi S Y. Numerical simulation of incremental forming of sheet metal
［J］. Journal of Materials Processing Technology,2008,199(1-3): 163-172.

［19］Ahmadi F, Farzin M, Mandegari M. Effect of grain size on ultrasonic softening of pure aluminum
［J］. Ultrasonics, 2015,63:111-117.

［20］Hino R, Kawabata K, Yoshida F. Incremental forming with local heating by laser irradiation for magnesium alloy sheet
［J］. Procedia Engineering, 2014,81:2330-2335.

［21］王勇强. 异种铝合金拼焊板渐进成形研究
［D］. 青岛: 青岛理工大学, 2022.

Wang Y Q. Research on Progressive Forming of Dissimilar Aluminum Alloy Welded Plates
［D］. Qingdao: Qingdao University of Technology, 2022.

［22］韩福辰. 金属板材数控渐进成形数值模拟研究
［D］. 沈阳：沈阳航空航天大学, 2014.

Han F C. Numerical Simulation Study on CNC Incremental Forming of Metal Sheets
［D］. Shenyang: Shenyang Aerospace University, 2014.

［23］李小强, 李燕乐. 柔性板材渐进成形技术与装备
［M］. 北京: 机械工业出版社有限公司, 2020.

Li X Q, Li Y L. Flexible Incremental Sheet Forming Technology and Equipment
［M］. Beijing: Machinery Industry Press Co., Ltd., 2020.

［24］张泽昊, 王进. 基于随动支撑的板料渐进成形数值模拟
［J］. 精密成形工程, 2023, 15(10):111-119.

Zhang Z H, Wang J. Numerical simulation of incremental sheet forming based on follower support
［J］. Journal of Netshape Forming Engineering, 2023, 15(10):111-119.

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