Transactions of Materials and Heat Treatment

Title：Research status and development trend of CAE technology of hot stamping for ultra high strength steel sheet

Authors： CAI Yu-jun WANG Yu-guang LI Guo-he SUN Qi-han

Unit： Tianjin University Key Laboratory of High Speed Cutting and Precision Machining of Tianjin

KeyWords： ultra high strength steel sheet hot stamping CAE technology

ClassificationCode：TG113

year,vol(issue):pagenumber：2011,36(4):5-11

Abstract：

With the gradually strengthening of people's environmental protection consciousness and requirements of automobile safety, low energy and low emission and security are considered first by motor corporations. The hot stamping technology of ultra high strength steel sheet is an important way to reduce the automobile weight, and improve the resistance of shock and collision. And it has become the hot technology in the current world automobile manufacturing. The development status of the CAE technology of hot stamping for ultra high strength steel sheet was summarized. And the disadvantages and development trends were pointed out, which had a certain significance for guiding the research and application of hot stamping technology in our country.

Funds：

天津市科技创新专项基金项目(08FDZDGX01900)；天津市高校双五科技计划资助项目（SWPY 20080003）；天津职业技术师范大学科研发展基金资助项目（YJS1006）

Reference：

[1] Bariani P F，Bruschi S，Turetta A，et al. Testing formability in the hot stamping of HSS[J]. CIRP Annals Manufacturing Technology，2008，57 (1) : 265-268.

[2] 刘红生，包军，邢忠文，等. 22MnB5超高强钢板热成形中的回弹机理分析[J].航空学报，2010，31(4): 865-870.

[3] Kerstrom P A，Oldenburg M. Studies of the thermomechanical material response of a boron steel by inverse modeling[J]. J. Phys. IVFrance，2004，120: 625-633.

[4] Akerstrom P，Wikman B，Oldenburg M. Material parameter estimation for boron steel from simultaneous cooling and compression experiments[J]. Modeling and Simulation in Materials Science and Engineering，2005，(13): 1291-1308.

[5] Akerstrom P，Oldenburg M. Austenite decomposition during press hardening of a boron steelcomputer simulation and test[J]. Journal of Materials Processing Technology，2006，174: 399-406.

[6] Akerstrom P，Oldenburg M. Numerical simulation of a thermo mechanical sheet metal forming experiment[A].Numisheet 2008[C].Switzerland,2008.

[7] Malek Naderi，Vitoon Uthaisangsuk，Ulrich Prahl，et al. A numerical and experimental investigation into hot stamping of boron alloyed heat treated steels[J]. Metal Forming，2008，(2): 77-84.

[8] Merkleinl M，Lechler J.Investigation of the thermo mechanical properties of hot stamping steels[J].Journal of Materials Processing Technology，2006，177: 452-455.

[9] 徐伟力，管曙荣，艾健，等. 钢板热冲压新技术关键装备和核心技术[J]. 世界钢铁，2009，(2): 30-33.

[10] 李海峰，陈明亮，谢志毅. 大型厚壁半球形封头热冲压成形的数值模拟[J]. 计算机仿真，2004，21(3): 109-112.

[11] 毕文权，王春忠，陈岗. 桥壳热冲压成型过程的数值模拟[J]. 材料科学与工艺，2008，16(4): 488-494.

[12] 张志强. 高强度钢板热冲压技术及数值模拟[J]. 热加工工艺，2010，39(11): 103-105.

[13] 张志强. B柱热冲压数值分析研究[J]. 锻压技术，2010，35(3): 57-60.

[14] Oberpriller B，Burkhardt L，Griesbach B.Benchmark 3Continuous Press Hardening Part A: Physical Tryout Report[C].Switzerland：Institute of Virtual Manufacturing，2008.

[15] Oberpriller B，Burkhardt L，Griesbach B.Benchmark 3 Continuous Press Hardening Part B: Benchmark Analysis[C].Switzerland： Institute of Virtual Manufacturing，2008.

[16] Turetta A，Bruschi S，Ghiotti A.Investigation of 22MnB5 formability in hot stamping operations[J].Journal of Materials Processing Technology，2006，(177)：396-400.

[17] Naderi M，SaeedAkbari A，Bleck W.The effects of nonisothermal deformation on martensitic transformation in 22MnB5 steel[J].Materials Science and Engineering，2007: 1-11.

[18] 林建平，孙国华，朱巧红，等. 超高强度钢板热成形板料温度的解析模型研究[J]. 锻压技术，2009，34(1)：20-23.

[19] Yanagimoto J，Oyamada K T，Nakagawa T. Springback of high strength steel after hot and warm sheet formings[J]. CIRP AnnalsManufacturing Technology，2005，54(1) : 213-216.

[20] Azraq S Al，Teti R， Costa J.Springback prediction with FEM analysis of advanced high strength steel stamping process[J]. Materials and Production Engineering，2008，(57): 265-268.

[21] 刘红生，包军，邢忠文，等. 高强钢板热冲压成形热力耦合数值模拟[J]. 材料科学与工艺，2010，18(4): 459-463.

[22] 罗云华，王磊. 高强钢板冲压回弹影响因素研究[J]. 锻压技术，2009，34(1):23-26.

Service：

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