Transactions of Materials and Heat Treatment

Title：Development and perspectives on plastic forming industry of China in the new century

Authors： Yuan Shijian

Unit： Harbin Institute of Technology

KeyWords： plastic forming superlarge equipment superlarge press intelligent manufacturing plastic constitutive model

ClassificationCode：TG306

year,vol(issue):pagenumber：2018,43(7):12-16

Abstract：

A rapid development is acquired in plastic forming industry of China under the major national requirements in the industries of aviation, aerospace, automobile, equipment manufacturing and others since the new century, and remarkable achievements are obtained. Then, according to the National Technological Innovation Award and the National Scientific and Technological Progress Award in plastic forming industry since 2000, the innovations and developments of key technologies in plastic forming process were discussed such as automobile panel forming, high-performance and lightweight component forming, multi-position extrusion, etc. Furthermore, some “No.1 in the world” super-large equipment made in China was introduced including super-large hydroforming press, super-large ring rolling mill, 360 MN vertical extruding machine, 120 MN tensionstretcher for aluminium alloy plate, etc., and the development trend of plastic forming technologies in the new century was looked forward involving plastic forming technology of super-large and complex components, plastic forming technology of high performance complex components for lightweight and high temperature resistant material, plastic constitutive model of non-ideal material, high precision numerical simulation and intelligent plastic forming equipment and production lines.

Funds：

苑世剑（1963-），男，博士，教授，E-mail：syuan@hit.edu.cn

Reference：

[1]苑世剑.轻量化成形技术[M]. 北京：国防工业出版社, 2010.

Yuan S J. Lightweight Forming Technology[M]. Beijing: National Defense Industry Press, 2010.

[2]林忠钦,李淑慧,王武荣,等.汽车板精益成形技术[J].中国工程科学, 2009, 11 (11): 22-29，36.

Lin Z Q, Li S H, Wang W R, et al. The lean forming technology for auto sheet metal[J]. Engineering Science, 2009, 11 (11): 22-29，36.

[3]杨合,孙志超,詹梅,等.局部加载控制不均匀变形与精确塑性成形研究进展[J].塑性工程学报,2008, 15 (2):6-14.

Yang H, Sun Z C, Zhan M, et al. Advances in control of unequal deformation by locally loading and theories related to precision plastic forming[J]. Journal of Plasticity Engineering, 2008, 15 (2):6-14.

[4]赵国群,王广春,赵振铎, 等.材料塑性成形过程最优化设计—Ⅱ灵敏度分析方法在模具设计中的应用[J].塑性工程学报,1999, 6（3）:1-6.

Zhao G Q, Wang G C, Zhao Z D, et al. Optimium design of material forming processes-Ⅱ Application of sensitivity analysis method in die design[J]. Journal of Plasticity Engineering, 1999, 6（3）:1-6.

[5]王新云,夏巨谌,陈志明,等.板冲锻成形新工艺及其在轿车飞轮盘加工中的应用[J].塑性工程学报,2008, 15 (4):180-184.

Wang X Y, Xia J C, Chen Z M, et al. Application of a new sheet stamptingforging hybrid technology in the forming of flying wheel panel of car[J]. Journal of Plasticity Engineering,2008,15 (4):180-184.

[6]苑世剑. 中国超大型塑性加工装备的发展[J].日本塑性加工学会会刊塑性と加工，2018，1（1）：14-15

Yuan S J. Development of ultra large metal forming presses in China[J]. Bulletin of the JSTP，2018，1（1）：14-15.

[7]苑世剑, 刘伟, 徐永超. 板材液压成形技术与装备新进展[J]. 机械工程学报, 2015, 51(8): 20-28.

Yuan S J, Liu W, Xu Y C. New development on technology and equipment of sheet hydroforming[J]. Journal of Mechanical Engineering, 2015, 51(8): 20-28.

[8]Chen Y Z, Liu W, Yu Y C, et al. Analysis and experiment on wrinkling suppression for hydroforming of curved surface shell[J]. International Journal of Mechanical Sciences, 2015, 104: 112-125.

[9]Hua L, Deng J D, Qian D S. Recent development of ring rolling theory and technique[J]. International Journal of Materials and Product Technology, 2017, 54 (1-3): 65-86.

[10]刘海霞, 颜永年, 曾攀, 等. 钢丝缠绕拱梁立柱全剖分-坎合机架[J]. 机械工程学报，2011, 47(4): 82-87.

Liu H X, Yan Y N, Zeng P, et al. Pillar and arched girder totally bumpy ridge joining frame with steel wire wound[J]. Journal of Mechanical Engineering, 2011, 47(4): 82-87.

[11]Jeswiet J, Geiger M, Engel U, et al. Metal forming progress since 2000[J]. CIRP Journal of Manufacturing Science and Technology, 2008, 1(1): 2-17.

[12]Tekkaya A E, Allwood J M, Bariani P F, et al. Metal forming beyond shaping: Predicting and setting product properties [J]. CIRP Annals, 2015, 64(2):629-653.

[13]Merklein M, Johannes M, Lechner M, et al. A review on tailored blanks-Production, applications and evaluation[J]. Journal of Materials Processing Technology, 2014, 214(2):51-164.

[14]Hu W L. A novel quadratic yield model to describe the feature of multiyieldsurface of rolled sheet metals[J]. Int. J. Plasticity, 2007, 23(12): 2004-2028.

[15]中国机械工程学会塑性工程分会.数控一代案例集: 塑性工程卷[M]. 北京：中国科学技术出版社，2016.

China Society for Technology of Plasticity，CMES. Cases of CNC Machinery Equipment: Plastic Engineering[M]. Beijing: Science and Technology of China Press, 2016.

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