在连铸和随后的生产工艺中预测和控制钢材的微观结构是生产制造满足高质量要求的特殊钢的一项非常重要的任务。连铸过程是一个非常复杂的过程,在这一过程中伴随着热量传输、质量传输、凝固和相变。在CAFE模型中,元胞自动机方法与连铸过程中传热计算进行耦合。利用ProCAST软件对连铸圆坯的凝固过程进行仿真模拟,通过连铸坯温度测量证明预测的连铸坯表面温度与实际比较接近。应用CAFE法实现了连铸坯凝固过程三维微观组织及其形成过程的模拟,通过对比试验和模拟的圆坯的宏观结构对模拟的结果进行了评价,证明模拟结果与试验结果吻合。
Prediction and control of steel microstructure during and after the continuous casting process is an extreme- ly important task for steel producers to make special steels with high quanlity. Continuous casting is a very complex process with series of parallel phenomena of heat and mass transfer, solidification and phase transformations. In the CAFE model, the cellular automation method was combined with heat transfer calculation during the continuous casting process. Simulations of solidification process of continuous cast round bloom were carried out with ProCAST software, and the simulation results are consistent with the measure surface temperature of continuous casting round bloom. Base on the CAFE method, 3D-microstructure of continuous casting round was simulated during solidification process, and simulation results were evaluated from comparison between experimentally observed and simulated maerostructures of the round bloom. It was proved that the simulation result was consistent with industy experiment result.
参考文献
| [1] | 王金龙 .9SMn28钢锭凝固过程硫偏析形成机理及控制工艺[D].北京:北京科技大学,2011. |
| [2] | Gandin C A;Charbon C;Rappaz M .Stochastic Modeling of So-lidification Grain Structure[J].ISIJ International,1995,35(06):651. |
| [3] | 李依依;李殿中;朱苗勇.金属材料制备工艺的计算机模拟[M].北京:科学出版社,2003:25. |
| [4] | 周力,侯华,牛晓峰,任巨良.铸造凝固微观组织模拟研究进展[J].铸造技术,2009(06):816-819. |
| [5] | 郝志强,卢艳玲,刘汉武,杜云慧,张鹏.铸件微观组织数值模拟的研究进展[J].铸造,2005(10):953-958. |
| [6] | 杨恩娜,张雅静,赵文娟,丁桦.金属凝固微观组织的相场模拟研究进展[J].铸造技术,2010(11):1510-1513. |
| [7] | 侯淑萍,赵维民,任福战.铸件微观组织数值模拟研究进展[J].中国铸造装备与技术,2001(01):4-8. |
| [8] | 张宙庆,张国伟,侯华,徐宏.铸件凝固过程的微观组织数值模拟研究进展[J].华北工学院学报,2004(05):386-390. |
| [9] | Gandin C A;Rappaz M .A Coupled Finite Element-Cellular Automation Model for the Prediction of Dendritic Grain Structure in Solidification Processes[J].Acta Metallurgica Et Materialia,1994,42(07):2233. |
| [10] | Rappaz M;Gandin C A .Probabilistic Modeling of Microstructure Formation in Solidification Processes[J].Aeta Metall master,1993,41(02):345. |
| [11] | Nastac L;Stefanescu D M.Stochastic Modeling of Microstructure Formation in Solidification Processes[J].Model Simul Mas ter Sci Eng,1997(05):391. |
| [12] | ZHU M F;KIM J M;HONG C P .A Modified Cellular Au-tomation Model for The Simulation of Dendritic Growth in Solidification of Alloy[J].ISIJ International,2001,41(05):436. |
| [13] | ZHU M F;KIM J M;HONG C P .Modeling Of Globular and Dendritic Structure Evolution in Solidification of An A1 loy-Tmass%Si Alloy[J].IS1J Int,2001,41(09):992. |
| [14] | Gandin C A;Desbiolies J L;Rappaz M et al.A Three Dimen sional Cellular Automaton-Finite Element Model for the Pre-diction of Solidification Grain Structure[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,1999,30(12):3153. |
| [15] | 李殿中;苏仕方;徐雪华.镍基合金叶片凝固过程微观组织模拟机工艺优化研究[J].铸造,1997(08):1. |
| [16] | 王同敏 .金属凝固过程微观模拟研究[D].大连理工大学,2000. |
| [17] | 金俊泽;王宗延 .金属凝固组织形成的仿真研究[J].金属学报,1998,34(09):928. |
| [18] | 于靖,许庆彦,崔锴,柳百成.基于一种改进CA模型的微观组织模拟[J].金属学报,2007(07):731-738. |
| [19] | WANGJ L;WANGFM;LICR et al.Simulation of 3D Microstructure in Free cutting Steel 9SMn28 under Water Cooling Condition with Cinvection and porosity[J].ISIJ In ternational,2010,503(02):222. |
| [20] | J. Wang;F. Wang;C. Li;J. Zhang .Simulation of Solidification Microstructure and Columnar to Equiaxed Transition in Freecutting Steel 9SMn28 based on a CAFE Method[J].Steel Research International,2010(2):150-157. |
| [21] | WANG J L;WANG F M;ZHAO Y Y et al.Numerical Simulation of 3D-Microstructure in Solidification Processes Based on a CAFE Method[J].International Journal of Miner als Metallurgy and Materials,2009,16(06):640. |
| [22] | ZHANG H Wi;Keiji N;Wu R Q et al.Prediction of Solidi- fication Microstructure and Columnar-to-equiaxed Transition of APSi Alloy hy Two-dimensional Cellular Automation with "Deeentred Square" Growth Algorithm[J].ISIJ Internation al,2009,49(07):1000. |
| [23] | Mingfang ZHU;Shiyan PAN;Dongke SUN .Numerical Simulation of Microstructure Evolution During Alloy Solidification by Using Cellular Automaton Method[J].ISIJ International,2010(12):1851-1858. |
| [24] | Kurza W;Giovanola B;Trivedi R .Theory of microstructure development during rapid solidification[J].Acta Metallurgica,1986,34(05):823. |
| [25] | 余永宁.金属学原理[M].北京:冶金工业出版社,2005:266. |
| [26] | 张红伟,王恩刚,赫冀成.方坯连铸过程中钢液流动、凝固及溶质分布的耦合数值模拟[J].金属学报,2002(01):99-104. |
| [27] | 冯科,陈登福,徐楚韶,孙海峰.连铸坯枝晶凝固的重要微观结构特征参数的研究进展[J].特殊钢,2004(03):1-5. |
| [28] | 刘宗昌.金属学与热处理[M].北京:化学工业出版社,2008:61. |
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