高强度热轧双相钢分段相变行为及性能Transformation behavior and properties of high strength hot-rolled dual phase steel
周乐育,张丹,蒋波,张朝磊,孙景宏,刘雅政
摘要(Abstract):
研究了C-Mn-P-Cr成分设计热轧双相钢分段冷却过程的相变行为,分析了分段冷却工艺参数和卷取温度对铁素体和马氏体相变组织及性能的影响。结果表明,在分段冷却控制相变过程中,两段水冷间隔空冷开始温度和空冷时间影响铁素体转变体积分数、形态和晶粒尺寸,从而也影响残留亚稳奥氏体的体积分数和分布。卷取温度影响亚稳奥氏体的转变,进而也影响马氏体的自回火过程和铁素体的过时效过程。两段水冷间隔空冷温度宜控制在650~660℃,以促进多边形铁素体均匀充分转变。空冷开始温度降为630~640℃,则会出现针状铁素体。当650~660℃空冷时间从5 s延长到8 s,铁素体体积分数从65%增加到87%,且马氏体明显细化。卷取温度250~300℃时,铁素体马氏体两相界面处有约300 nm的较大碳化物颗粒,且马氏体内部有一定程度的回火,析出了少量的细小碳化物,会使得屈服强度偏高约80 MPa。采用150~200℃卷取可获得较为理想的双相组织和力学性能。
关键词(KeyWords): 双相钢;铁素体形态;卷取温度;性能
基金项目(Foundation): 中央高校基本科研业务费专项资金资助(FRF-TP-12-046A);; 北京高校“青年英才计划”(YETP0355)
作者(Author): 周乐育,张丹,蒋波,张朝磊,孙景宏,刘雅政
DOI: 10.13289/j.issn.1009-6264.2014.04.022
参考文献(References):
- [1]敖炳秋.轻量化汽车材料技术的最新动态[J].汽车工艺与材料,2002(8-9):1-22.AO Bing-qiu.Latest development of light weighting automotive materials[J].Automobile Technology&Material,2002(8-9):1-22.
- [2]马鸣图,Shi M F.先进的高强度钢及其在汽车工业中的应用[J].钢铁,2004,39(7):68-72.MA Ming-tu,Shi M F.Advanced high strength steel and it’s applications in automobile industry[J].Iron and Steel,2004,39(7):68-72.
- [3]唐荻,米振莉,陈雨来,等.国外新型汽车用钢的技术要求及研究开发现状[J].钢铁,2005,40(6):1-5.TANG Di,MI Zhen-li,CHEN Yu-lai,et al.Technology and research and development of advanced automobile steel abroad[J].Iron and Steel,2005,40(6):1-5.
- [4]Kim S,Lee S.Effects of martensite morphology and volume fraction on quasi-static and dynamic deformation behavior of dual-phase steels[J].Metallurgical and Materials Transactions A,2000,31(7):1753-1760.
- [5]Hwang B C,Cao T Y,Shin S Y,et al.Effects of ferrite grain size and martensite volume fraction on dynamic deformation behaviour of 0 15C-2 0Mn-0 2Si dual phase steels[J].Materials Science and Technology,2005,21(8):967-975
- [6]Ramazani A,Mukherjee K,Prahl U,et al.Modeling the effect of microstructural banding on the flow curve behaviour of dual-phase(DP)steels[J].Computational Materials Science,2012,52(1):46-54.
- [7]Hilditch T,Beladi H,Hodgson P,et al.Role of microstructure in the low cycle fatigue of multi-phase steels[J].Materials Science and Engineering A,2012,534:288-296.
- [8]董毅,时晓光,韩斌.终轧温度对热轧细晶双相钢组织与性能的影响[J].金属热处理,2011,36(1):64-67.DONG Yi,SHI Xiao-guang,HAN Bin.Effect of finishing rolling temperature on microstructure and properties of fine grained hot-rolled dual-phase steel[J].Heat Treatment of Metals,2011,36(1):64-67.
- [9]张红梅,孙彬斌,贾志伟,等.热轧双相钢显微组织和力学性能[J].材料热处理学报,2007,28(4):78-82.ZHANG Hong-mei,SUN Bin-bin,JIA Zhi-wei,et al.Microstructure and mechanical properties of as-hot rolled dual-phase steel[J].Transactions of Materials and Heat Treatment,2007,28(4):78-82.
- [10]徐海卫,杨王玥,孙祖庆,等.低碳含铌细晶双相钢的组织控制[J].材料热处理学报,2008,29(2):60-65.XU Hai-wei,YANG Wang-yue,SUN Zu-qing,et al.Microstructure control of low carbon Nb-microalloyed fine grained dual phase steel[J].Transactions of Materials and Heat Treatment,2008,29(2):60-65.
- [11]Suwanpinij P,Togobytska N,Prahl U,et al.Numerical cooling strategy design for hot rolled dual phase steel[J].Steel Research International,2010,81(11):1001-1009.
- [12]Dong R F,Li D G,Yan B,et al.Effects of technological parameters on microstructures and properties of low cost hot rolled dual phase steel on CSP Line[J].Journal of Iron and Steel Research,International,2011,18(Sl-1):615-620.
- [13]Niakan H,Najafizadeh A.Effect of niobium and rolling parameters on the mechanical properties and microstructure of dual phase steels[J].Materials Science and Engineering A,2010,527(21):5410-5414.
- [14]Asadi M,De Cooman B C,Palkowski H.Influence of martensite volume fraction and cooling rate on the properties of thermomechanically processed dual phase steel[J].Materials Science and Engineering A,2012,538:42-52.
- [15]胡学文,刘雅政,周乐育,等.回火温度对热轧双相钢组织和力学性能影响研究[J].钢铁,2010,45(3):78-81.HU Xue-wen,LIU Ya-zheng,ZHOU Le-yu,et al.Effect of tempering temperature on microstructure and mechanical properties of hot-rolled dual phase steel[J].Iron and Steel,2010,45(3):78-81.
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