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Simulation about hot stamping of ultra-high strength steel on the basis of lightweight technology

Simulation about hot stamping of ultra-high strength steel on the basis of lightweight technology
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摘要 With the development of automobile lightweight,it is very necessary to apply the ultra-high strength steel parts manufactured by hot stamping,which offers the possibility to reduce the weight of automobiles and maintain the safety requirement.In order to complete hot stamping,it is important to design the structure of parts reasonably,which is related with reasonable matching of strength.The objective of this paper is to guide the design of parts manufactured by hot stamping and find the forming technical requirements of vehicle performance.Through experiments,the paper obtains the stress and strain curves at different deformation temperatures and strain rates.Based on experimental data, the constitutive relationship model is established which can reflect the deformation capacity of ultra-high strength steel during the process of hot stamping.Combined with finite element simulation results of hot stamping by commercial software AUTOFORM,transfer path of load and matching law of strength,the paper determines the design criteria and forming technical requirements of parts manufactured by hot stamping.At the same time,the impact performance of front cross member internal plate is taken into consideration. With the development of automobile lightweight, it is very necessary to apply the ultra-high strength steel parts manufactured by hot stamping, which offers the possibility to reduce the weight of automobiles and maintain the safety requirement. In order to complete hot stamping, it is important to design the structure of parts reasonably, which is related with reasonable matching of strength. The objective of this paper is to guide the design of parts manufactured by hot stamping and find the forming technical requirements of vehicle performance. Through experiments, the paper obtains the stress and strain curves at different deformation temperatures and strain rates. Based on experimental data, the constitutive relationship model is established which can reflect the deformation capacity of ultra-high strength steel during the process of hot stamping. Combined with finite element simulation results of hot stamping by commercial soft- ware AUTOFORM, transfer path of load and matching law of strength, the paper determines the design criteria and forming technical requirements of parts manufactured by hot stamping. At the same time, the impact performance of front cross member internal plate is taken into consideration.
作者 Liu Qiang Ma Fangwu Wang Xiaona Yao Zaiqi Song Wei Zhao Fuquan Ma Mingtu Song Leifeng
机构地区 Geely Automobile Research Institute China Automotive Engineering Research Institute Co.Ltd.
出处 《Engineering Sciences》 EI 2012年第6期67-70,共4页 中国工程科学(英文版)
基金 Project in the National Science & Technology Pillar Program during the"Twelfth Five-year Plan"Period(No.2011BAG03B02 No.2011BAG03B06)
关键词 超高强度钢 轻量化技术 有限元模拟 热冲压 汽车轻量化 基础 设计标准 冲压零件 ultra-high strength steel hot stamping finite element simulation lightweight technology
分类号 TG142 [金属学及工艺—金属材料] U292.914 [交通运输工程—交通运输规划与管理]
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参考文献9

  • 1Karbasian H, Tekkaya A E. A review on hot stamping [J]. Journal of Materials Processing Technology, 2010, 210 ( 15 ) : 2103-2118.
  • 2Merklein M, LechlerJ. Investigation of the thermo-mechanical properties of hot stamping steel [J].Journal of Materials Processing Technology, 2006, 177 (1-3) : 452455.
  • 3王立影,王芝斌.热冲压成形零件质量控制因素分析[J].锻压技术,2010,35(2):117-119. 被引量:22
  • 4Bariani P F, Bruschi S, Ghiotti A, et al. Testing for-mability in the hot stamping of HSS [J]. Manufacturing Technology, 2008, 57 (1) : 265-268.
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  • 6Xing Zhongwen, BaoJun , Yang Yuying. Numerical simulation of hot stamping of quenchable boron steel [J]. Material Science and Engineering A, 2009, 499 (1-2) : 28 -31.
  • 7Naderi M, Ketabchi M, Abbasi M, et al. Analysis of microstruc?ture and mechanical properties of different high strength carbon steel after hot stamping [J].Journal of Materials Processing Tech?nology, 2011,211(6): 1117-1125.
  • 8Liu Heping,Jin Xuejun, Dong Han, et al. Martensitic micro?structural transformation from the hot stamping, quenching and partitioning process [J]. Materials Characterization, 2011, 62 (2): 223-227.
  • 9Ikeuchi Katsuyoshi, YanagimotoJun. Valuation method for effects of hot stamping process parameters on product properties using hot forming simulator [J].Journal of Materials Processing Technology, 2011,211(8): 1441-1447.

二级参考文献7

  • 1Wang Liying, Lin Jianping, Min Junying, et al. Investigation on hot stamping process of ultrahigh strength steel [A].Proceedings of the 8th International Conference on Frontiers of Design and Manufacturing [C]. Tianjin, 2008.
  • 2Claudio Federici, Stefano Maggi, Serigio Rigoni. The use of advanced high strength steel sheets in the automotive industry [EB/OL], Fiat Auto engineering and design materials engineering, Turin, Italy. http: //www. msm. can. ac. uk/phasetrans/2005/LINK/11. pdf.
  • 3Thyssenkrupp teehforum[EB/OL] . http: //www. thyssenkrupp. com/ documents/Publikationen/Techforum/forum _ 07 05 _ en. pdf. 2005.
  • 4Lin Jianping, Wang Liying, Tian Haobin, et al. Research on the hot stamping process of quenchable ultrahigh strength Steel [A]. The 2007 International Conference on Advances in Construction Machinery and Vehicle Engineering[C]. Shanghai, 2007.
  • 5彭伟,杨雪春,杨国泰.高强度板U形件冲压成形的回弹仿真研究[J].锻压技术,2008,33(1):34-38. 被引量:14
  • 6王立影,林建平,朱巧红,田浩彬,胡琦.热冲压成形模具冷却系统临界水流速度研究[J].机械设计,2008,25(4):15-18. 被引量:22
  • 7林建平,孙国华,朱巧红,胡琦,王立影,田浩彬.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. 被引量:24

共引文献21

Engineering Sciences
2012年 第6期

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