国内外油气管道用抗大变形焊管的研制现状
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摘要
为了克服冻土带、滑坡带、地震带等条件对管线造成的大位移变形失效,保证服役管线的安全性和完整性,要求焊管具有较强的抗大变形能力。国外的研究表明,目前可作为抗大变形管线钢的材料有铁素体+贝氏体双相钢、贝氏体+M/A双相钢和针状铁素体钢,这些抗大变形管线钢可通过控制钢的化学成分、轧制工艺和热处理得到,双相管线钢具有低屈强比、高加工硬化指数、大均匀延伸率、圆屋顶型应力应变曲线等特点。国内的钢厂和管厂也联合进行了中缅油气管道抗大变形焊管国产化试制工作并获得成功,目前国内抗大变形管线钢普遍采用铁素体+贝氏体双相钢。
In order to withstand the large-displacement deformation of pipelines caused by the tundra,land slide and earthquake etc.,and ensure the safety and integrity of the pipeline in service,the steel pipes applied therein shall be with high deformability.According to the foreign researches,the materials which can be used as the strain-based linepipe steel are: Ferrite(F)+Bainite(B) dual-phase steel,Bainite+M/A(Mastensite-Austenite constituent) dual-phase steel and acicular ferrite steel.By controlling the chemical compositions and the rolling process,the above-mentioned high-deformability linepipe steel can be obtained.The kind of linepipe steel features in low yield point,low Y/T ratio,high work hardening rate,high uniform elongation rate,and round-house type stress-strain curve.Trial production of high-deformability welded pipe for the China-Myanmar Oil & Gas Pipeline project was conducted and succeeded in 2011 by several domestic steel plants and pipe plants.The ferrite+ bainite dual-phase steel is commonly used as the high-deformability line pipe steel in China at present.
In order to withstand the large-displacement deformation of pipelines caused by the tundra,land slide and earthquake etc.,and ensure the safety and integrity of the pipeline in service,the steel pipes applied therein shall be with high deformability.According to the foreign researches,the materials which can be used as the strain-based linepipe steel are: Ferrite(F)+Bainite(B) dual-phase steel,Bainite+M/A(Mastensite-Austenite constituent) dual-phase steel and acicular ferrite steel.By controlling the chemical compositions and the rolling process,the above-mentioned high-deformability linepipe steel can be obtained.The kind of linepipe steel features in low yield point,low Y/T ratio,high work hardening rate,high uniform elongation rate,and round-house type stress-strain curve.Trial production of high-deformability welded pipe for the China-Myanmar Oil & Gas Pipeline project was conducted and succeeded in 2011 by several domestic steel plants and pipe plants.The ferrite+ bainite dual-phase steel is commonly used as the high-deformability line pipe steel in China at present.
引文
[1]李鹤林.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].石油科技论坛,2008(02):19-25.
[2]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(04):14-20.
[3]李鹤林,吉玲康,田伟.西气东输一二线管道工程的几项重大技术进步[J].天然气工业,2010(04):8-16.
[4]HUPER T.Effect of Constituent Phases on the Stress-strainRelationship of Dual Phase Steels[J].ISIJ International,1999(39):288-294.
[5]Nobuyuki lshikawa,Mitsuhiro Okatsu,Shigery Endo.采用先进的TMCP技术生产高变形性UOE管[C]∥石油天然气管道工程技术及微合金化钢.北京:冶金工业出版社,2007:171-178.
[6]尚成嘉,杨善武,王学敏,等.新颖的贝氏体/铁素体双相低碳微合金钢[J].北京科技大学学报,2003,25(03):288-290.
[7]HARA T,SHINOHARA Y,TERADA Y,等.基于应变设计高强度抗大变形管线管的研制[C]∥2009管线技术国际会议译文选编.北京:中信微合金化技术中心,2010:342-348.
[8]陈妍,毛艳丽.日本高强度管线钢生产概述[J].焊管,2009,32(03):64-68.
[9]LIESSEM A.基于应变设计用X100钢管生产和开发的进展[C]∥2009管线技术国际会议译文选编.北京:中信微合金化技术中心,2010:147-154.
[10]中国石油管道公司编著.国内外油气管道标准对比分析[M].石油工业出版社,2010.
[11]朱丽霞,何小东,仝珂,等.一种抗大变形管线钢的微观组织与拉伸性能的相关性研究[J].材料导报,2011(11):556-559.
[2]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(04):14-20.
[3]李鹤林,吉玲康,田伟.西气东输一二线管道工程的几项重大技术进步[J].天然气工业,2010(04):8-16.
[4]HUPER T.Effect of Constituent Phases on the Stress-strainRelationship of Dual Phase Steels[J].ISIJ International,1999(39):288-294.
[5]Nobuyuki lshikawa,Mitsuhiro Okatsu,Shigery Endo.采用先进的TMCP技术生产高变形性UOE管[C]∥石油天然气管道工程技术及微合金化钢.北京:冶金工业出版社,2007:171-178.
[6]尚成嘉,杨善武,王学敏,等.新颖的贝氏体/铁素体双相低碳微合金钢[J].北京科技大学学报,2003,25(03):288-290.
[7]HARA T,SHINOHARA Y,TERADA Y,等.基于应变设计高强度抗大变形管线管的研制[C]∥2009管线技术国际会议译文选编.北京:中信微合金化技术中心,2010:342-348.
[8]陈妍,毛艳丽.日本高强度管线钢生产概述[J].焊管,2009,32(03):64-68.
[9]LIESSEM A.基于应变设计用X100钢管生产和开发的进展[C]∥2009管线技术国际会议译文选编.北京:中信微合金化技术中心,2010:147-154.
[10]中国石油管道公司编著.国内外油气管道标准对比分析[M].石油工业出版社,2010.
[11]朱丽霞,何小东,仝珂,等.一种抗大变形管线钢的微观组织与拉伸性能的相关性研究[J].材料导报,2011(11):556-559.
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