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含铜时效钢焊接粗晶区组织转变特征研究 被引量:1

Research on microstructure transformation characteristics in CGHAZ of copper-bearing aging steel
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摘要 采用Gleeble-3800焊接热模拟机模拟研究了含铜时效钢焊接粗晶区的组织转变规律,测定了SHCCT曲线,分析研究了冷却速度对其组织形貌、晶粒度和硬度的影响规律。结果表明,冷却速度较快时(t_(8/5)<15 s),含铜钢的焊接粗晶区组织以板条贝氏体为主,晶粒尺寸相对较小,硬度较高;冷却速度较慢时(t_(8/5)>40 s),焊接粗晶区的组织主要由粒状贝氏体构成,原始奥氏体晶粒尺寸粗大,同时在铁素体基体上分布着较多大尺寸的M-A岛,M-A岛的形成导致焊接粗晶区的低温韧性严重恶化。 The microstructure transformation of CGHAZ(coarse grain heat-affected zone) in copper-bearing aging steel was studied by using thermal simulator of Gleeble-3800.And the SHCCT curve of experimental steel was drawn to analyze the effects of cooling rate on the microstructure,hardness and grain size in CGHAZ.The results indicates that when the cooling rate is fast(t_(8/5)<15 s),the microstructure of CGHAZ in copper-bearing aging steel is almost lath bainite.In addition,and the grain size is relatively finer,and the hardness is relatively higher.However,when the cooling rate is slow(t_(8/5)>40 s),the microstructure is mainly granular bainite in CGHAZ.And the grain size of original austenite is coarse.Meanwhile many large size M-A islands structure is distributed in the ferritic matrix,which causes a serious deterioration to the low temperature toughness of CGHAZ.
作者 徐魁龙 柴锋 苏航
机构地区 钢铁研究总院工程用钢所
出处 《焊接》 北大核心 2013年第4期51-54,72,共4页 Welding & Joining
关键词 含铜时效钢 粗晶区 M—A岛 粒状贝氏体 copper-bearing aging steel coarse grain heat-affected zone M-A islands granular bainite
分类号 TG407 [金属学及工艺—焊接]
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参考文献5

  • 1Vaynman S, Isheim D, Kolli R P, et al. High-strength low-carbon ferritic steel containing Cu-Fe-Ni-A1-Mn precipitates [ J ]. Metallurgical and Materials Transactions A ,2008,39 (2) :363 - 373. 被引量:1
  • 2Montemarano T W, Sack B P, Gudas J P. High strength low alloy steels in naval construction[ J]. Journal of Ship Production, 1986 (2) : 145 - 162. 被引量:1
  • 3杨才福,张永权.新一代易焊接高强度高韧性船体钢的研究[J].钢铁,2001,36(11):50-54. 被引量:55
  • 4李亚江著..焊接组织性能与质量控制[M].北京:化学工业出版社,2005:356.
  • 5张文钺..焊接物理冶金[M],1991.

二级参考文献4

  • 1[1]Montemarano T W, High Strength Low Alloy Steels in Naval Construction. Journal of Ship Production, 1986,(3):145~162. 被引量:1
  • 2[2]Thompson S W. Continuous-cooling-transformation Behavior in HSLA80 Steel. Metallurgical and Materials Transactions, 199 6,27A(6): 1557~ 1571. 被引量:1
  • 3[3]Llewellyn D T. Copper in Steels. Ironmaking and Steelmaking, 1996,22(1):25~34. 被引量:1
  • 4[4]Yoo J Y. Microstructures and Age Hardening Charateristics of Direct Quenched Cu Bearing HSLA Steel. ISIJ International, 1995,35 (8) : 1034 ~ 1040. 被引量:1

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