锻压技术

基于伺服压力机的板料成形研究现状与发展趋势

英文标题：Research status and development tendency of sheet metal forming using servo press

作者：夏敏向华庄新村赵震

单位：上海交通大学

分类号：TG305；TG315

出版年,卷(期):页码：2013,38(2):1-6

摘要：

伺服压力机作为新一代的成形设备在板料成形领域正日益发挥重要作用。本文介绍了伺服压力机的技术特点，并面向冲裁、弯曲、拉深等典型板料成形工艺综述了伺服压力机在降低生产成本、优化工艺和提高产品质量方面的研究进展。此外，针对伺服压力机可设置保压及滑块运动精确可控的优点，综述了其在高强钢热冲压等复杂热成形过程中的应用。最后，对伺服压力机在板料锻造成形工艺上的应用与发展进行了展望。

As a new generation of forming equipment, servo press gradually plays an important role in the field of sheet metal forming. Technical characteristics of servo press were concluded, and the research status of production cost reduction, process optimization and product quality improvement by using servo press were summarized facing to typical sheet metal forming processes, such as blanking, bending and drawing. In addition, based on the advantages like pressure maintaining as well as controllable and precise motion of the slide, the application of servo press in complex hot forming operations, such as hot stamping for high strength steels was summarized. Finally, application and prospects of sheet forging combined with servo control technology were presented.

基金项目：

国家自然科学基金资助项目（50975175）；教育部新世纪优秀人才支持计划资助项目（NCET-10-0560）

参考文献：

［1］杨合, 李落星, 王渠东, 等. 轻合金成形领域科学技术发展研究[J]. 机械工程学报, 2010, 46(12): 31-41.
［2］Yossifon S, Messerly D, Kropp E, et al. A servo motor driven multiaction press for sheet metal forming[J]. International Journal of Machine Tools and Manufacture, 1991, 31(3): 345-359.
［3］傅岩, 张立伟, 丁博, 等. 新型柔性锻压技术伺服压力机[J]. 金属加工:热加工, 2009, (15): 55-56.
［4］吕言, 周建国, 阮澍. 最新伺服压力机的开发以及今后的动向[J]. 锻压装备与制造技术, 2006, (1):11-14.
［5］赵振铎. 实用冲裁技术[M]. 北京: 化学工业出版社, 2004.
［6］黄珍媛, 蔡志兴, 阮锋, 等. 高速精密级进冲压中的冲裁断面质量实验研究[J]. 塑性工程学报, 2009, 16(3): 9-12.
［7］赵中华, 张猛,韦习成. 冲裁速度对冲压件断面质量的影响[J]. 塑性工程学报, 2010, 17(4): 45-49.
［8］Otsu M, Yamagata C, Osakada K. Reduction of blanking noise by controlling press motion[J]. CIRP Annals-Manufacturing Technology, 2003, 52(1): 245-248.
［9］Koga N, Kubo M, Junlapen K. Burrfree shearing using NC servo press machine[J]. Journal of the Japan Society for Technology of Plasticity, 2007, 48(558): 645-649.
［10］Mori K, Akita K, Abe Y. Springback behavior in bending of ultra-high-strength steel sheets using CNC servo press[J]. International Journal of Machine Tools and Manufacture, 2007, 47(2): 321-325.
［11］Suganuma T. Application of servo press to sheet metal forming[J]. Journal of the Japan Society for Technology of Plasticity, 2008, 49(565): 118-122.
［12］Majidi O. Effect of slide velocity on springback in U-draw bending of AHSS with digital servo-press[A].Mori K. Proceedings of the 4th International Conference on Metal Forming[C]. Krakow, 2012.
［13］叶春生, 侯文杰, 张军伟, 等. 数字伺服压力机控制系统的研究[J]. 锻压技术, 2009, 34 (6): 117-120.
［14］常琛扬, 翟敬梅, 夏琴香, 等. 基于伺服压力机的凸缘筒形件拉深成形数值分析[J]. 锻压技术, 2011, 36(4): 59-63.
［15］赵中华, 徐新成, 韦习成. 自由模式下板料拉深成形性能试验研究[J]. 昆明理工大学学报:自然科学版, 2011, 36(2): 41-45.
［16］Tamai Y, Yamasaki Y, Yoshitake A, et al. Improvement of formability in stamping of steel sheets by motion control of servo press[J]. Steel Research International, Supplement Metal Forming, 2010, 41(9): 686-689.
［17］Komatsu I, Murakami T. Practical Use of Servo Press[N]. Nikkan-Kogyo-Shinbunsha(in Japanese), 2009-06-12.
［18］Yamashita H, Nakai H, Onose E, et al. Research in deep-draw forming of high-strength steel sheet using a NC servo press machine[A]. Proceeding of IDDRG[C]. Graz,2010.
［19］张铧, 陈忠家, 耿德远，等. 变压边力对铝合金板料拉深成形性能的影响[J]. 模具工业, 2010, 36(7):37-41.
［20］王晖, 卫瑞元, 袁军涛, 等. 基于变压边力的盒形件拉深研究[J]. 机械设计与制造, 2010, (7): 95-96.
［21］林建平, 王立影, 田浩彬, 等. 超高强度钢板热冲压成形研究与进展[J]. 热加工工艺, 2008, 37(21): 140-144.
［22］Mori K, Maki S, Tanaka Y. Warm and hot stamping of ultra high tensile strength steel sheets using resistance heating[J]. CIRP Annals-Manufacturing Technology, 2005, 54(1): 209-212.
［23］Mori K, Saito S, Maki S. Warm and hot punching of ultra high strength steel sheet[J]. CIRP Annals-Manufacturing Technology, 2008, 57(1): 321-324.
［24］Maeno R, Mori K, Hamedon Z. Hot bending of titanium alloy sheet using resistance heating[A].Mori K. Proceedings of the 4th International Conference on Metal Forming[C]. Krakow, 2012.
［25］Osakada K, Mori K, Altan T, et al. Mechanical servo press technology for metal forming[J]. CIRP AnnalsManufacturing Technology, 2011, 60(2): 651-672.
［26］Merklein M, Allwood JM, Behrens BA, et al. Bulk forming of sheet metal[J]. CIRP AnnalsManufacturing Technology, 2012, 61(2):725-745.
［27］Maeno T, Osakada K, Mori K. Reduction in friction in forging of plates by load oscillation[J]. Journal of the Japan Society for Technology of Plasticity, 2010, 50(585): 951-955.
［28］Maeno T, Osakada k, Mori K. Reduction of friction in compression of plates by load pulsation[J]. International Journal of Machine Tools and Manufacture, 2011, 51(78): 612-617.
［29］Mori K. Bulk forming of sheet metals for controlling wall thickness distribution of products[A].Mori K. Proceedings of the 4th International Conference on Metal Forming[C]. Krakow, 2012.
［30］Miyoshi K. Current trends in free motion presses[A]. Proceedings of the 3rd JSTP International Seminar on Precision Forging[C]. Japan:Nagoya, 2004.
［31］Ueno K, Mori K, Maki S, et al. Resistance heating of side wall of cup for warm and hot spline forming[J]. Steel Research International, Supplement Metal Forming,2010, 41(9): 63-66.
［32］Mori K, Maeno T, Fukui Y. Spline forming of ultra-high strength gear drum using resistance heating of side wall of cup[J]. CIRP AnnalsManufacturing Technology, 2011, 60(1): 299-302.

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