期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

低碳Si-Mn系Q&P钢两相区的退火热处理工艺 被引量:7

Quenching and partitioning(Q&P) process in two-phase region of a low carbon Si-Mn steel
原文传递
导出
摘要 研究一种新型的两相区不同退火温度的淬火和碳再分配热处理工艺对低碳硅-锰系Q&P钢的显微组织、精细结构的影响,并和奥氏体区退火的Q&P热处理工艺进行对比。通过SEM、TEM分析发现,采用两相区退火的Q&P工艺室温组织为板条马氏体、铁素体和薄膜状残留奥氏体。残留奥氏体以两种形态存在:处于马氏体板条间的薄膜状和位于原奥氏体晶界处的块状。两相区热处理后的Q&P钢,不仅抗拉强度高达1000 MPa以上,其伸长率也高达23%以上,体积分数高达11%的残留奥氏体在组织中起到了相变诱发塑性的作用。 Effect of a novel quenching and partitioning process at different annealing temperatures in two-phase region on microstructure of a low carbon Si-Mn steel was investigated by using a thermo-meehanical simulator CCT-AY-Ⅱ, XRD, SEM and TEM. The results show that the mierostructure of the low carbon Si-Mn steel consists of lath martensite, ferrite and retained austenite by Q&P process. Film retained austenite between lath martensite and bulk retained austenite at prior-austenite grain boundaries is observed. The steel after Q&P process possess a good combination of strength and plasticity due to its fine mierostructure. It exhibits high ultimate tensile strength exceeding 1000 MPa and fine elongation of 23%. The retained austenite with volume fraction up to 11% plays a role of transtormation-induced plasticity.
作者 蒯振 陈银莉 庄宝潼 赵爱民 姜英花
机构地区 北京科技大学冶金工程研究院 首钢技术研究院
出处 《材料热处理学报》 EI CAS CSCD 北大核心 2012年第12期88-93,共6页 Transactions of Materials and Heat Treatment
基金 国家"863"计划资助项目(2008AA03Z502)
关键词 Q&P 板条马氏体 残留奥氏体 TRIP效应 两相区退火 Q&P lath martensite remained austenite TRIP effect annealing in two-phase region
分类号 TG162.83 [金属学及工艺—热处理]
  • 相关文献

参考文献14

  • 1徐祖耀.钢热处理的新工艺[J].热处理,2007,22(1):1-11. 被引量:82
  • 2徐祖耀.低碳马氏体形成时碳的扩散.金属学报,1983,19(6):505-509.
  • 3SpeerJ G, Matlock D K, De Cooman B C, et al.Carbon partitioning in to austenite after martensite transformation [J].Acta Mater, 2003 ,51 : 2611 - 2622.
  • 4Gerdemann F L H, SpeerJ G, Matlock D K.Microstructure and hardness of steel grade 9260 heat-treated by the quenching and partitioning (Q&P) process [C] II Materials Science and Technology, New Orleans, LA, USA: Association for Iron and Steel Technology ,2004 :439 - 449.
  • 5SpeerJ G, Edmonds D V, Rizzo F C.Partitioning of carbon from supersaturated plates of ferrite, with application to steel processing and fundamentals of the bainite transformation[J].Current Opinion in Solid State & Materials Science,2004,8(3) :219 -237.
  • 6De Cooman B C, SpeerJ G.Microstructure-properties relationships in quench and partition (Q&P) steel implications for automotive anti-intrusion applications [C] Ilproc.3rd Inter Conf on Advanced Structural Steels ,2006, Ins.t Metals and Materials, Gyeongju, Korea, 798 - 805.
  • 7Zhong N , Wang X D, Huang B X, et al.Microstructures and mechanical property of quenched and partitioned Fe-C-Mn-Si steel [C] II Proc.3rd Inter Conf on Advanced Structural Steels ,2006, Ins.Metals and Materials, Gyeongju, Korea,885 - 891.
  • 8王海涛,何燕霖,张梅.Al元素对TRIP钢组织的影响[J].上海金属,2005,27(5):23-25. 被引量:6
  • 9Matlock D K, De Cooman B C, SchrothJ G, et al.Carbon partitioning into austenite after martensite transformation [J] .Acta Materialia, 2003 ,51 ( 9) : 2611 - 2622.
  • 10Narasimha R B V, Thomas G.Structure-property relations and the design of Fe-4Cr-C base structural steels for high strength and toughness [J].Metallurgical Transactions ,980 ,l1A (3) :441 - 457.

二级参考文献7

共引文献108

同被引文献46

  • 1钟群鹏,张峥,王守凯,田永江,陈昌麒.碳钢韧脆转变温度与组织参量和解理断裂单元尺寸的关系[J].钢铁,1993,28(10):49-53. 被引量:6
  • 2Shi J,Sun X J, Wang M Q, et al. Enhanced work-hardening behavior and mechanical properties in ultrafine-grained steels with large-fractioned metastable austenite[ J]. Scr Mater,2010,63 ( 8 ) :815 - 820.
  • 3Arlazarov A, Goun$ M, Bouaziz O, et al. Evolution of microstructure and mechanical properties of medium Mn steels during double annealing [ J ]. Materials Science and Engineering A. 2012,542:31 - 37.
  • 4Shi J, Cao W Q, Dong H. Uhrafine grained high strength low alloy steel with high strength and high ductility [ J ]. Materials Science Forum Vols,2010 (654/656) :238-242.
  • 5Speer J G,Matlock D K,De Cooman B C,et al. Carbon partitioning in to austenite after martensite transformation [ J ]. Acta Materialia,2003,51:2611 -2621.
  • 6Gerdemann F L H,Speer J G, Matlock D K. Microstrueture and hardness of steel grade 9260 heat-treated by the quenching and partitioning (Q&P) process[ C ]//Materials Science and Technology, New Orleans, LA, USA : Association for Iron and Steel Technology,2004:439 - 443.
  • 7Speer J G,Edmonds D V, Rizzo F C. Partitioning of carbon from supersaturated plates of ferrite,with application to steel processing and fundamentals of the bainite transformation [ J ]. Current Ooinion in Solid State & Materials Science .2004.8 ( 3 ) :219 -237.
  • 8De Moor E,Speer J G, Matlock D K. Effect of carbon and manganese on the quenching and partitioning response of CMnSi steels [ J ]. ISIJ International,2011,51 ( 1 ) :137 - 141.
  • 9Miller R L, Ultrafine-grained microstructures and mechanical properties of alloy steels[ J]. Metallurgical Transactions, 1972,3 (4) :905 -912.
  • 10Speer J G, Matlock D K, De Cooman B C, et al. Carbon par titioning into austenite after martensite transformation [J]. Acta Materialia, 2003(51) : 2611.

引证文献7

二级引证文献12

材料热处理学报
2012年 第12期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部