抗大变形管线钢的研究进展
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摘要
总结了国内外抗大变形管线钢的研究进展,介绍了抗大变形管线钢的基本组织特征,详述了通过成分设计以及相变规律研究,制定出优化的控轧控冷工艺,在国内工业化试制出X65级(多边形铁素体+贝氏体铁素体)抗大变形管线钢。
Research progress on high deformability pipeline steels at home and abroad was reviewed and the corresponding microstructure characteristics of the steels were also introduced.The work on composition design,study of phase transformation behavior,determination of optimal thermo-mechanical controlled processing(TMCP) parameters and final production trial for an X65 grade high deformability pipeline steel with microstructure of(polygonal ferrite+bainitic ferrite) is described.
Research progress on high deformability pipeline steels at home and abroad was reviewed and the corresponding microstructure characteristics of the steels were also introduced.The work on composition design,study of phase transformation behavior,determination of optimal thermo-mechanical controlled processing(TMCP) parameters and final production trial for an X65 grade high deformability pipeline steel with microstructure of(polygonal ferrite+bainitic ferrite) is described.
引文
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[2]郑磊,高珊.宝钢高强度高韧性针状铁素体管线钢的开发与应用[J].焊管,2007,30(1):45.
[3]黄开文,王颖,庄传晶.从2006年国际管道会议看高钢级管道建设[J].焊管,2007,30(3):11.
[4]刘学杰,孙绍平.地下管道穿越断层的设计方法[J].特种结构,2005,22(2):81.
[5]潘家华.我国的能源战略及石油天然气的输送[J].焊管,2006,29(6):5.
[6]潘家华.高强度管线钢发展中的几个重要课题[J].焊管,2005,28(4):1.
[7]王仪康,潘家华,杨柯,等.高性能输送管线钢[J].焊管,2007,30(1):11.
[8]Ishikawa N,Okatsu M,Endo S,et al.Development of HighStrength Linepipe With Excellent Deformability[C]∥SeminarForumof X100/X120 Grade High Performance Pipe Steels.Beijing,China:PetroleumStorage and Transportation Com-mittee of Chinese PetroleumSociety,2005:201.
[9]Terada Y,Shinohara Y,Hara T,et al.High Strength Line-pipe With Excellent HAZ Toughness and Deformability[C]∥Seminar Forumof X100/X120 Grade High Performance PipeSteels.Beijing,China:PetroleumStorage and TransportationCommittee of Chinese PetroleumSociety,2005:313.
[10]Suzuki N,Toyoda M.Seismic Loading on Buried Pipelinesand Deformability of High Strength Linepipes[C]∥Procee-dings of the International Conference on the Application andEvaluation of High-Grade Linepipes in Hostile Environments.Yokohama,Japan:edited by Toyoda M,Denys R,ScientificSurveys Ltd.,2002:601.
[11]Okatsu M,Shikanai N,Kondo J.Development of a High-De-formability Linepipe With Resistance to Strain-Aged Harde-ning by HOP(Heat-Treat ment On-Line Process)[J].JFETechnical Report,2008,(12):8.
[12]Ishikawa N,Shikanai N,Kondo J.Development of Ultra-High Strength Llinepipes With Dual-Phase Microstructure forHigh Strain Application[J].JFE Technical Report,2008,(12):15.
[13]Ishikawa N,Okatsu M,Endo S,et al.Mechanical and Meta-llurgical Properties of High Strength Linepipe for High StrainApplication[C]∥International Pipeline Steel Forum.Beijing,China:CNPC,2008:56.
[14]李鹤林,李霄,吉玲康,等.油气管道基于应变的设计及抗大变形管线钢的开发与应用[J].焊管,2007,30(5):5.
[15]魏伟.石油管道用钢组织优化及强韧化机理研究[D].沈阳:中国科学院金属研究所,2008.
[16]董玉华,余大涛,李鹤林.用于地震及地质灾害条件下的钢管性能研究进展[J].焊管,2008,31(4):14.
[17]郑磊,傅俊岩.高等级管线钢的发展现状[J].钢铁,2006,41(10):1.
[18]王伟.高性能管线钢的组织及强韧化机理研究[D].沈阳:中国科学院金属研究所,2009.
[19]Oldfield W.Curve Fitting I mpact Test Data:A StatisticalProcedure[J].ASTMStandardizations News,1975,3(11):24.
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