使用Gleeble 3800热模拟实验机研究了一种低C微合金SiMnCrNiMo钢的奥氏体连续冷却相变(CCT)行为,使用辊径750mm的二辊可逆实验轧机进行了系列TMCP实验,开发出F550高强度船板.生产F550船板的TMCP工艺为:在奥氏体再结晶区和未再结晶区进行两阶段轧制,精轧温度800~820℃,精轧压下率67%,轧后以14~18℃/s的速率冷却至350~500℃.钢板的显微组织为细密贝氏体,其屈服强度大于590MPa,抗拉强度大于700MPa,-60℃下Charpy冲击吸收能量高于230J.
参考文献
| [1] | 翁宇庆,杨才福,尚成嘉.低合金钢在中国的发展现状与趋势[J].钢铁,2011(09):1-10. |
| [2] | W. Schutz;F. Schroter .Development of heavy steel plate for Mayflower Resolution, special purpose vessel for erection of offshore wind towers[J].Materials Science and Technology: MST: A publication of the Institute of Metals,2005(5):590-596. |
| [3] | 倪志军,张向葵.采用TMCP工艺对高强度船体结构钢EH50的研究与开发[J].钢铁,2009(05):48-51,71. |
| [4] | Dongsheng LIU;Binggui CHENG;Mi LUO .F460 Heavy Steel Plates for Offshore Structure and Shipbuilding Produced by Thermomechanical Control Process[J].ISIJ International,2011(4):603-611. |
| [5] | DONGSHENG LIU;QINGLIANG LI;TOSHIHIKO EMI .Microstructure and Mechanical Properties in Hot-Rolled Extra High-Yield-Strength Steel Plates for Offshore Structure and Shipbuilding[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2011(5):1349-1361. |
| [6] | 孙宪进,徐洪庆,李旺生,赵坤,李成军.TMCP工艺在高强度船板生产中的研究与应用[J].钢铁,2010(01):87-90. |
| [7] | 王洪,刘小林,蔡庆伍.生产工艺对420 MPa高强度船板钢低温韧性的影响[J].钢铁,2006(08):64-67. |
| [8] | S.W.THOMPSON;D.J. COLVIN .Austenite Decomposition During Continuous Cooling of an HSLA-80 Plate Steel[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,1996(6):1557-1571. |
| [9] | S.K. DHUA;D. MUKERJEE;D.S. SARMA .Influence of Tempering on the Microstructure and Mechanical Properties of HSLA-100 Steel Plates[J].Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science,2001(9):2259-2270. |
| [10] | 程丙贵,罗咪,刘东升.低碳CuNiCrMnMo钢热处理后的组织与性能[J].金属热处理,2011(01):68-71. |
| [11] | 冷光荣,武会宾,陈慰琼,黄小山.热处理工艺对含铜超高强度船板钢组织和性能的影响[J].金属热处理,2010(01):99-102. |
| [12] | 吴辉,赵燕青,李闯,王学敏.690MPa级海洋平台用钢的组织和性能[J].金属热处理,2010(09):20-25. |
| [13] | A. A. Gorni;R. R. Mei .Effect of controlled-rolling parameters on the ageing response of HSLA-80 steel[J].Journal of Materials Processing Technology,2008(1-3):374-378. |
| [14] | Antonio Augusto Gorni;Paulo Roberto Mei .Austenite transformation and age hardening of HSLA-80 and ULCB steels[J].Journal of Materials Processing Technology,2004(0):1513-1518. |
| [15] | Dhua, S.K.;Sen, S.K. .Effect of direct quenching on the microstructure and mechanical properties of the lean-chemistry HSLA-100 steel plates[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2011(21):6356-6365. |
| [16] | Lis A.K.; .Mechanical properties and microstructure of ULCB steels affected by thermomechanical rolling, quenching and tempering[J].Journal of Materials Processing Technology,2000(1/3):212-218. |
| [17] | 周砚磊,徐洋,陈俊,刘振宇.FH550级海洋平台用钢冲击断裂行为实验研究[J].金属学报,2011(11):1382-1387. |
| [18] | 刘东升,李庆亮.热轧屈服强度550MPa高强度钢板组织性能[J].钢铁,2011(04):53-58. |
| [19] | 康健,王昭东,王国栋,袁国,周晓光.780 MPa级低屈强比高层建筑用钢的生产工艺研究[J].钢铁,2010(07):71-75. |
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