Improved Removal Efficiency of Submicron Inclusions in Non-oriented Silicon Steel during RH Process 被引量：2

下载PDF

导出

摘要 To improve the removal efficiency of such submicron inclusions,we designed an argon blowing method for an RH facility based on mathematical simulations.The effect of the argon blowing on the liquid steel flow and the movement of submicron inclusions was studied using the k-ε flow model coupled with the DPM model for inclusion movement based on fluid computational dynamics in FLUENT.It was found that a more uniform argon flow can be achieved in the up-leg snorkel with a new nozzle position and inner diameter,which resulted in a favorable up-lifting and mixing movement.The new design also increased the circulation rate of molten steel in the RH chamber.The increased turbulent kinetic energy and turbulent dispersing rate enhanced the collision probability of submicron inclusions,which results in an improved removal for 0.5-1 μm inclusions.The proposed RH facility could increase the removal rate of submicron inclusions from the original 57.1% to 66.4%,which improves the magnetic properties of non-oriented silicon steel.

作者 CHEN Tianying JIN Yan CHENG Zhaoyang YUAN Zexi BI Yunjie LIU Jing 陈天颖;JIN Yan;CHENG Zhaoyang;YUAN Zexi;BI Yunjie;刘静(The State Key Laboratory of Refractories and Metallurgy,Wuhan University of Science and Technology,Wuhan 430081,China)

机构地区 The State Key Laboratory of Refractories and Metallurgy

出处《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2020年第6期1122-1127,共6页 武汉理工大学学报（材料科学英文版）

基金 Funded by the National Natural Science Foundation of China(No.51804231) the Key R&D Program of Hubei Province(No.2020BAA027)。

关键词 RH treatment argon blowing method model optimization submicron inclusions numerical simulation

分类号 TF769 [冶金工程—钢铁冶金]

引文网络
相关文献

参考文献6

1杜丽影,周桂峰,LIU Jing,SHI Wenmin,BI Yunjie,CHENG Zhaoyang,XUE Huan.Fatigue Cracking Characterization of High Grade Non-oriented Electrical Steels[J].Journal of Wuhan University of Technology(Materials Science),2017,32(6):1329-1335. 被引量：2
2王耀,李宏,郭洛方.钢液中球状夹杂物颗粒受力情况的数值模拟[J].北京科技大学学报,2013,35(11):1437-1442. 被引量：17
3陈天颖,刘静,程朝阳,骆忠汉,毕云杰.无取向硅钢RH精炼过程中夹杂物行为研究[J].武汉科技大学学报,2019,42(1):1-7. 被引量：5
4朱苗勇,黄宗泽.RH真空脱碳精炼过程的模拟研究[J].金属学报,2001,37(1):91-94. 被引量：21
5艾新港,王春松,孟凡童,李胜利,刘海啸,甘雨.RH精炼过程Al_2O_3夹杂物运动和去除的数值模拟[J].钢铁研究学报,2016,28(1):20-24. 被引量：8
6万勇,CHEN Weiqing.Effect of Boron Content on the Microstructure and Magnetic Properties of Non-oriented Electrical Steels[J].Journal of Wuhan University of Technology(Materials Science),2015,30(3):574-579. 被引量：5

二级参考文献50

1吴华杰,包燕平,岳峰,田新中,薛正学,艾新港,贾楠.RH真空处理GCr15轴承钢中全氧及显微夹杂物的行为研究[J].北京科技大学学报,2009,31(S1):121-124. 被引量：11
2郭艳永,柳向春,蔡开科,刘良田,骆忠汉,柳志敏.BOF-RH-CC工艺生产无取向硅钢过程中夹杂物行为的研究[J].钢铁,2005,40(4):24-27. 被引量：20
3金焱,毕学工,傅连春.钢液中Al_2O_3夹杂物生成与去除的数学模型[J].炼钢,2005,21(4):31-33. 被引量：3
4刘小兵,程良骏.Lagrangian颗粒运动方程的分析和求解[J].水利电力科技,1995,22(1):41-45. 被引量：2
5刘小兵,程良骏.Basset力对颗粒运动的影响[J].四川工业学院学报,1996,15(2):55-63. 被引量：9
6郑淑国,朱苗勇,潘时松.RH真空精炼装置内夹杂物行为的实验研究[J].金属学报,2006,42(6):657-661. 被引量：20
7尹国才,秦玲玲.马钢RH-KTB流场的数值模拟[J].中国冶金,2007,17(1):38-41. 被引量：3
8刘浏.RH高效化生产工艺技术的进步[C]//2007年全国RH精炼技术研讨会文集.北京:中国金属学会,2007:13.
9Littmann M E Iron and Silicon-iron Alloys[J]. IEEE Tram. Mag., 1971, 7(1): 48-60.
10Hou C K, Hu C T, Lee S. The Effect of Aluminum on the Magnetic Properties of Lamination Steels[J]. IEEE Trans. Mag., 1991, 27(5): 4 305-4 309.

共引文献51

1卢艳青,方兴,陈永范.单支架RH脱碳的水模型实验研究[J].钢铁,2004,39(z1):84-86. 被引量：1
2魏季和,胡汉涛.钢液RH精炼非平衡脱碳过程数学模拟：过程数学模型[J].过程工程学报,2008,8(S1):9-16. 被引量：6
3尹小东,黄宗泽,顾文兵.真空脱碳过程的数学模拟研究[J].金属学报,2005,41(8):876-880. 被引量：2
4杜成武,朱苗勇,潘时松,郑淑国.RH-PTB真空精炼装置内粉剂混合特性的水模型研究[J].特殊钢,2005,26(5):16-18.
5郑淑国,朱苗勇,潘时松.RH真空精炼装置内夹杂物行为的实验研究[J].金属学报,2006,42(6):657-661. 被引量：20
6顾文兵,黄宗泽,尹小东.VD精炼脱碳过程的工艺因素分析[J].钢铁研究学报,2006,18(8):19-22. 被引量：5
7Jian Cui Zongze Huang Zhigang Ma.Development of RH refining technology at Baosteel[J].Baosteel Technical Research,2007,1(1):1-5.
8耿佃桥,雷洪,赫冀成.不同浸渍管参数下RH装置内钢液流动行为[J].钢铁,2008,43(2):35-40. 被引量：14
9齐凤升,李宝宽,陈海耿.旋转磁场作用下真空精炼超低碳钢脱碳过程的模拟分析[J].世界钢铁,2009,9(1):24-26.
10耿佃桥,雷洪,陈芝会,赫冀成,黄健,李秉强.RH真空精炼过程数值模拟的研究现状及展望[J].过程工程学报,2010,10(S1):271-276. 被引量：5

同被引文献26

1于雷,罗海文.部分再结晶退火对无取向硅钢的磁性能与力学性能的影响[J].金属学报,2020,56(3):291-300. 被引量：15
2Y.T.Chen X.Chen Q.F.Ding J.Zeng.MICROSTRUCTURE AND INCLUSION CHARACTERIZATION IN THE SIMULATED COARSE-GRAIN HEAT AFFECTED ZONE WITH LARGE HEAT INPUT OF A Ti-Zr-MICROALLOYED HSLA STEEL[J].Acta Metallurgica Sinica(English Letters),2005,18(2):96-106. 被引量：15
3孔祥华,张东升,何业东,朱涛,骆晓钢,张建平,刘辉.无取向硅钢磷酸盐环保绝缘涂层制备工艺[J].北京科技大学学报,2007,29(S2):108-111. 被引量：17
4齐海峰,唐广波,王晓春,李激光.无取向电工钢线状表面缺陷分析[J].钢铁钒钛,2012,33(4):96-100. 被引量：5
5缪乐德,张毅,张峰,王国栋,王波.不同牌号无取向硅钢夹杂物定性定量分析[J].冶金分析,2012,32(10):7-15. 被引量：11
6张正贵,李战库.无取向硅钢绝缘涂层研究进展[J].腐蚀科学与防护技术,2013,25(5):425-428. 被引量：21
7胡志强,林媛,张文康,顾祥宇.无取向硅钢自粘结涂层性能的影响因素[J].电工材料,2018(6):3-7. 被引量：4
8曾亚南,孙彦辉,蔡开科,徐蕊.RH精炼工艺对无取向硅钢MgO·Al_2O_3夹杂物演变影响及控制[J].钢铁,2014,49(9):38-43. 被引量：4
9顾祥宇,陈祥,王兴原.无取向硅钢用三价铬绝缘涂液的制备及性能研究[J].山西冶金,2017,40(4):41-43. 被引量：1
10严春莲,尹立新,任群,孟杨,其其格,崔桂彬.钢中夹杂物扫描电镜自动统计分析结果的影响因素探讨[J].冶金分析,2018,38(8):1-10. 被引量：12

引证文献2

1乔向东,严蒋,赵强,刘路彤.无取向硅钢研究的进展[J].热处理,2023,38(3):40-45. 被引量：5
2乔家龙,付兵,帅勇,刘坚锋,郭飞虎.高牌号无取向硅钢全尺寸夹杂物表征[J].安徽工业大学学报（自然科学版）,2024,41(4):403-411.

二级引证文献5

1弓涛,庞炜光,刘庆,王现辉,冀建立,王敏.高硅钢不同脱氧工艺下精炼渣系控制[J].现代交通与冶金材料,2024,4(2):21-27.
2舒泽腾,滑小杰,白璐,姚昕宇,叶芹,董香芸,闫成亮.硅钢冷轧断带原因分析和工艺改进[J].电工钢,2024,6(2):17-22.
3米大为,石浩,李权.退火温度对00Cr13Si2Al钢的力学性能和磁性能的影响[J].连铸,2024(2):105-110.
4乔家龙,付兵,帅勇,刘坚锋,郭飞虎.高牌号无取向硅钢全尺寸夹杂物表征[J].安徽工业大学学报（自然科学版）,2024,41(4):403-411.
5郭立合,李振忠,孙浩,刘世英,王超.热轧无取向硅钢断面形状的优化控制研究[J].电工钢,2024,6(4):35-39.

1N.GANESH,S.ARUNVINTHAN,S.NADARAJA PILLAI.Effect of surface blowing on aerodynamic characteristics of tubercled straight wing[J].Chinese Journal of Aeronautics,2019,32(5):1111-1120. 被引量：5
2ZHAO Dong-mei,JIAO Yuan-mei,WANG Jin-liang,DING Yin-ping,LIU Zhi-lin,LIU Cheng-jing,QIU Ying-mei,ZHANG Juan,XU Qiu-e,WU Chang-run.Comparative performance assessment of landslide susceptibility models with presence-only,presenceabsence,and pseudo-absence data[J].Journal of Mountain Science,2020,17(12):2961-2981.
3Hadi Haghjouei,Majid Rahimpour,Kourosh Qaderi,Sameh AKantoush.Experimental study on the effect of bottomless structure in front of a bottom outlet on a sediment flushing cone[J].International Journal of Sediment Research,2021,36(3):335-347. 被引量：1
4GUO Zongqi,MA Ying.Bonding Mechanisms of Basic Refractories for RH Snorkels[J].China's Refractories,2020,29(4):29-34. 被引量：1
5Liu Yunyun.Is Keeping China Down More Important Than Lifting Americans Up?[J].Beijing Review,2021,64(1):28-28.
6Yuandi Wang,Nanjun Yan,Zhigang Zhou,Kai Zeng.Bubble model analysis on the cell formation of a green alga[J].International Journal of Biomathematics,2020,13(5):21-31.
7Jian-fei Xu,Kun-peng Wang,Ying Wang,Zhi-dong Qu,Xing-kuang Tu.Effects of ferrosilicon alloy,Si content of steel,and slag basicity on compositions of inclusions during ladle furnace refining of Al-killed steel[J].Journal of Iron and Steel Research International,2020,27(9):1011-1017. 被引量：4
8Ammar Ali Abd,Samah Zaki Naji,Ahmed Barifcani.Comprehensive evaluation and sensitivity analysis of regeneration energy for acid gas removal plant using single and activated-methyl diethanolamine solvents[J].Chinese Journal of Chemical Engineering,2020,28(6):1684-1693. 被引量：3
9WEI Sumin,AN Shizhong,YIN Meng.Development of 230 MeV Beam Transfer System[J].Annual Report of China Institute of Atomic Energy,2019(1):209-210.
10Ge-fan Ye,Jian Yang,Run-hao Zhang,Wen-kui Yang,Han Sun.Behavior of phosphorus enrichment in dephosphorization slag at low temperature and low basicity[J].International Journal of Minerals,Metallurgy and Materials,2021,28(1):66-75. 被引量：4

Journal of Wuhan University of Technology(Materials Science)

2020年第6期

浏览历史

内容加载中请稍等...