我国桥梁钢的发展历程及展望
Development of Bridge Steels in China
摘 要
对我国桥梁钢的发展现状以及日本和美国桥梁钢的发展现状进行了介绍.指出了国内外桥梁钢存在的差距,最后指出我国桥梁钢的发展方向是低碳贝氏体钢和耐候钢.
低碳贝氏体钢
耐候钢
bridge steel
low carbon bainitic steel
weathering steel
Abstract
The development of bridge steels in China is introduced.The development of bridge steels in Japan and U.S.is also presented simply.The gap between domestic and overseas bridge steels is pointed out.The prospect in the development trend is also discussed.It is suggested that low carbon bainitic steel and weathering steel should be developed.
中图分类号 TG142.41
所属栏目
基金项目 国家高技术发展计划资助项目(2003AA33G010);辽宁省重大科技攻关资助项目(2004221008)
收稿日期 2007/8/19
修改稿日期 2008/1/3
网络出版日期
作者单位点击查看
备注王磊(1980-),男,江苏宿迁人,博士研究生.
引用该论文: WANG Lei,GAO Cai-ru,WANG Yan-feng,DU Lin-xiu,ZHAO De-wen,LIU Xiang-hua. Development of Bridge Steels in China[J]. Materials for mechancial engineering, 2008, 32(5): 1~3
王磊,高彩茹,王彦锋,杜林秀,赵德文,刘相华. 我国桥梁钢的发展历程及展望[J]. 机械工程材料, 2008, 32(5): 1~3
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参考文献
【1】陈伯蠡.中国焊接钢桥的发展[C]//2006钢结构焊接国际论坛.北京:中国机械工程学会,2006:5-12.
【2】韦明,李玉谦.14MnNbq钢板在4 200 mm轧机的轧制工艺[J].宽厚板,1999,5(6):20-24.
【3】高德春.14MnNbq钢试验研究及实桥应用[J].宽厚板,1997,3(5):6-14.
【4】郭爱民.武钢新一代桥梁钢的研制及应用[J].钢结构,2000,15(3):53-56.
【5】Shen Y,Hansen S S.Development of a 100ksi (690 MPa) Yield Strength,Weathering Steel for Bridge Application [C]//High Performance Steels for Structural Application.Cleveland,Ohio:TMS,1995:127-134.
【6】Focht E M,Montemarano T W.Development of High Performance Steels for Bridge Construction[C]//High Performance Steels for Bridge Structural Application.Cleveland,Ohio:TMS,1995:141-154.
【7】Yu-ichi Komizo.Recent Development in Steels for Bridge and Line Pipe[C]//Asia Steel International Conference 2006.Fukuoka,Japan:ISIJ,2006:140-145.
【8】松井和幸,大森俊道,宮田志郎.橋樑用高機能鋼材[J].NKK技報,1999,165(3):11-16.
【9】Akira USAMI,Hiroshi KIHIRA,Takashi KUSUNOKI.3%-Ni weathering steel plate for uncoated bridges at high airborne salt environment[J].Nippon Steel Technical Report,2003,87:21-23.
【10】Yutaka SAKATA,Akinobu SUZUKI,Kenji NISHIUMI,et al.New Steel-materials for bridge construction[J].Nippon Steel Technical Report,1998,77/78:47-55.
【11】竹村誠洋,藤田栄,鈴木伸一.海岸耐候性鋼[J].NKK技報,2000,171(9):9-13.
【12】高久達捋,三原豐,藤田栄.NKK のミニマムメソテナス橋梁[J].NKK技報,1999,165(3):17-21.
【13】弓削佳德,堀紀文,西日俊一.LP鋼板の製造技術と船舶,橋梁への適用[J].川崎制鐵技報,1998,30(3):137-141.
【14】Shigenori Tsuru,Klyoshi Nishioka,Yuji Nomiyama.Progress and outlook of steel plate production technology at nippon steel corporation[J].Nippon Steel Technical Report,1997,75:3-8.
【15】李志明.钢结构发展对高性能钢材的需求[J].新材料产业,2004(10):45-52.
【16】Wilson A D,Gross J H,Stout R D,et al.Development of an improved HPS-100W Steel for bridge applications[C]//ASM International.Microalloyed Steels 2002.Columbus,OH:ASM International,2002:32-42.
【17】Wilson A D.Properties of recent production of A709 HPS-70W bridge steels[C]//ASM International.International Symposium on Steel for Fabricated Structures.Cincinnati,OH:ASM International,1999:41-49.
【18】Barker M G,Schrage S D.High-performance steel bridge design and cost comparisons[J].Transportation Research Record,2000,1740:33-39.
【19】Yost L,Funderburk S.High-performance steel increasingly used for bridge building[J].Welding Journal (Miami Fla),2001,80(9):46-48.
【20】Wasserman Edward P.Optimization of HPS 70W application[J].Journal of Bridge Engineering,2002,7(1):1-5.
【2】韦明,李玉谦.14MnNbq钢板在4 200 mm轧机的轧制工艺[J].宽厚板,1999,5(6):20-24.
【3】高德春.14MnNbq钢试验研究及实桥应用[J].宽厚板,1997,3(5):6-14.
【4】郭爱民.武钢新一代桥梁钢的研制及应用[J].钢结构,2000,15(3):53-56.
【5】Shen Y,Hansen S S.Development of a 100ksi (690 MPa) Yield Strength,Weathering Steel for Bridge Application [C]//High Performance Steels for Structural Application.Cleveland,Ohio:TMS,1995:127-134.
【6】Focht E M,Montemarano T W.Development of High Performance Steels for Bridge Construction[C]//High Performance Steels for Bridge Structural Application.Cleveland,Ohio:TMS,1995:141-154.
【7】Yu-ichi Komizo.Recent Development in Steels for Bridge and Line Pipe[C]//Asia Steel International Conference 2006.Fukuoka,Japan:ISIJ,2006:140-145.
【8】松井和幸,大森俊道,宮田志郎.橋樑用高機能鋼材[J].NKK技報,1999,165(3):11-16.
【9】Akira USAMI,Hiroshi KIHIRA,Takashi KUSUNOKI.3%-Ni weathering steel plate for uncoated bridges at high airborne salt environment[J].Nippon Steel Technical Report,2003,87:21-23.
【10】Yutaka SAKATA,Akinobu SUZUKI,Kenji NISHIUMI,et al.New Steel-materials for bridge construction[J].Nippon Steel Technical Report,1998,77/78:47-55.
【11】竹村誠洋,藤田栄,鈴木伸一.海岸耐候性鋼[J].NKK技報,2000,171(9):9-13.
【12】高久達捋,三原豐,藤田栄.NKK のミニマムメソテナス橋梁[J].NKK技報,1999,165(3):17-21.
【13】弓削佳德,堀紀文,西日俊一.LP鋼板の製造技術と船舶,橋梁への適用[J].川崎制鐵技報,1998,30(3):137-141.
【14】Shigenori Tsuru,Klyoshi Nishioka,Yuji Nomiyama.Progress and outlook of steel plate production technology at nippon steel corporation[J].Nippon Steel Technical Report,1997,75:3-8.
【15】李志明.钢结构发展对高性能钢材的需求[J].新材料产业,2004(10):45-52.
【16】Wilson A D,Gross J H,Stout R D,et al.Development of an improved HPS-100W Steel for bridge applications[C]//ASM International.Microalloyed Steels 2002.Columbus,OH:ASM International,2002:32-42.
【17】Wilson A D.Properties of recent production of A709 HPS-70W bridge steels[C]//ASM International.International Symposium on Steel for Fabricated Structures.Cincinnati,OH:ASM International,1999:41-49.
【18】Barker M G,Schrage S D.High-performance steel bridge design and cost comparisons[J].Transportation Research Record,2000,1740:33-39.
【19】Yost L,Funderburk S.High-performance steel increasingly used for bridge building[J].Welding Journal (Miami Fla),2001,80(9):46-48.
【20】Wasserman Edward P.Optimization of HPS 70W application[J].Journal of Bridge Engineering,2002,7(1):1-5.
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