介绍了高磷铁矿选矿脱磷和炼钢脱磷反应机理研究的最新进展,对生产低磷钢的各个环节如铁水预处理,转炉冶炼,钢水炉外脱磷尤其是炉外脱磷的渣系组成及脱磷工艺进行了详细的论述.探讨了高磷铁水炼钢的可行性.
参考文献
| [1] | 钟宏,曹占芳,符剑刚.宁乡式高磷铁矿中磷的测定方法[J].矿业快报,2005(02):28-31. |
| [2] | 童雄,刘四清,何剑,陈海蛟,崔毅琦.难选鲕状赤、褐铁矿石的选矿试验研究[J].金属矿山,2004(z1):319-321. |
| [3] | 林祥辉.高效新品种捕收剂RA-315的制取及应用研究[J].矿冶工程,1993(03):31. |
| [4] | Zhang Y;Muhammed M .The Removal of Phosphorus from Iron ore by Leaching with Nitric Acid[J].HYDROMETALLURGY,1998,21:255-275. |
| [5] | 卢尚文.宁乡式胶磷铁矿用解胶浸矿法降磷的研究[J].金属矿山,1994(08):30-33,36. |
| [6] | 崔吉让;方启学.高磷铁矿石脱磷工艺研究现状及发展方向[J].矿产综合利用,1998(06):20-24. |
| [7] | 石原透.高磷磁铁矿和赤铁矿超声波酸浸脱磷研究[J].国外金属矿选矿,1966(02):38-40. |
| [8] | 黄剑聆,杨云妹,谢珙.溶磷剂与硫杆菌协同对铁矿石脱磷的研究[J].南京林业大学学报,1994(02):25. |
| [9] | 何良菊,胡芳仁,魏德洲.梅山高磷铁矿石微生物脱磷研究[J].矿冶,2000(01):31-35. |
| [10] | Y. Kaida;M. Hasegawa;Y. Kikuchi .A New Experimental Technique for Determinations of the Activities of P_2O_5 and Fe_xO-the System CaO-P_2O_5-Fe_xO[J].Metallurgical and Materials Transactions, B. Process metallurgy and materials processing science,2005(1):43-51. |
| [11] | Teppei TAMURA;Tetsuya NAGASAKA;Mitsutaka HINO .Phase Equilibria of Two-liquid CaO-MgO-Fe_tO-P_2O_5 Slag Saturated with (Mg, Fe)O[J].ISIJ International,2004(3):476-481. |
| [12] | Ryo INOUE;Hideaki SUITO .Mechanism of Dephosphorization with CaO-SiO_2-Fe_tO Slags Containing Mesoscopic Scale 2CaO·SiO_2 Particles[J].ISIJ International,2006(2):188-194. |
| [13] | Shinya FUKAGAI;Tasuku HAMANO;Fumitaka TSUKIHASHI .Formation Reaction of Phosphate Compound in Multi Phase Flux at 1 573 K[J].ISIJ International,2007(1):187-189. |
| [14] | Muan A;Osborn E F.Phase Equilibria among Oxides in Steelmaking[M].Addison-Wesley Publishing Company Inc.,Reading,MA,USA,1965 |
| [15] | Uchida Y;Iwase M;McLean A.[A].Canada Institute of Mining and Metallurgy,2000:261-268. |
| [16] | Uchida Y;Iwase M;MacLean A.An Overview on the External Removal of Silicon,Phosphorous and Sulphur from Hot Metal[A].Steelmaking,2000:61-68. |
| [17] | Iwase M;Tommii Y;Kikuchi Y.Reduction of slag volume and fluorospar consumption in steelmaking[A].陕西西安,2001:86-93. |
| [18] | Nagabayashi R;Hino M;Ban-ya S .Distribution of Phosphorus between Liquid Iron and Fe1O-(CaO+MgO)-(SiO2+P2O5) Phosphate Slags[J].Tstsu-to-Hagane,1988,74(09):1770-1777. |
| [19] | Ryo INOUE;Hideaki SUITO .Mechanism of Dephosphorization with CaO-SiO_2-Fe_tO Slags Containing Mesoscopic Scale 2CaO·SiO_2 Particles[J].ISIJ International,2006(2):188-194. |
| [20] | Hideaki SUITO;Ryo INOUE .Thermodynamic assessment of hot metal and steel dephosphorizalion with MnO-containing BOF slags[J].ISIJ International,1995(3):258-265. |
| [21] | Hideaki SUITO;Ryo INOUE .Behavior of Phosphorous Transfer from CaO-Fe_tO-P_2O_5(-SiO_2) Slag to CaO Particles[J].ISIJ International,2006(2):180-187. |
| [22] | Ryo INOUE;Hideaki SUITO .Phosphorous Partition between 2CaO·SiO_2 Particles and CaO-SiO_2-Fe_tO Slags[J].ISIJ International,2006(2):174-179. |
| [23] | Tasuku HAMANO;Shinya FUKAGAI;Fumitaka TSUKIHASHI .Reaction mechanism between solid CaO and FeO_x-CaO-SiO_2-P_2O_5 slag at 1573 K[J].ISIJ International,2006(4):490-495. |
| [24] | 杨吉春;王清华;那树人 等.IF钢水炉外脱磷的实验研究[J].包头钢铁学院学报,1997,16(04):254-258. |
| [25] | Borgianni C;Angelo R D .Deep dephosphorization treatments for steel[J].Ctajib,1991,3:27-30. |
| [26] | Ishii H;Fruehan R J .Dcphosphorization Equilibria Between Liquid and Highly Basic CaO-Based Slags Saturated with MgO[J].Ironmaking and Steelmaking,1997,24(02):47-54. |
| [27] | Usui T;Yamada K;Miyashita Y et al.Dcphosphorization Characteristics of CaO-Na2O-Fe1O-SiO2 Slag[J].Transactions of the Iron and Steel Institute of Japan,1983,23:B-49. |
| [28] | Tanabe H;Matsuda Y;Hanunyou M et al.Production of Ultra Low Phosphorus Steel by Sodium Metasilicate[J].Transactions of the Iron and Steel Institute of Japan,1983,23:B-50. |
| [29] | Sasaki K.A Newly Developed Hot Metal Treatment Has Changed the Ideal of Mass Production of Pure Steel[A].ISS-AIME,1983:285-291. |
| [30] | Yoshida K .Development of New Hot Metal Dcphosphorization Process at Kashima Steel Works[J].Steel Times International,1990,14(03):20-22. |
| [31] | Matsuo T.Development of New Hot Metal Dephosphorization Process in Top and Bottom Blowing Convener[A].ISS-AIME,1990:115-121. |
| [32] | Hajika K;Aoki M;Nitta M.Quality Improvement and Energy Saving by A Newly-Developed Steelmaking Process[A].,1989:325-330. |
| [33] | Chukwulebe B O;Kuznetsov G V.Utilization of High Phosphorous Hot Metal in BOF Steelmaking[A].,2006:613-622. |
| [34] | Mukherjfe T;Chaterjfe A .Production of low phosphorus steels from high phosphorous Indian hot metal:Experience at Tata Steel[J].Bulletin of Materials Science,1996,19(06):893-903. |
| [35] | 冷启明.新一代汽车用钢-高强度含磷钢板[J].交通世界(运输车辆),1995(01):20-21;2:15-17. |
| [36] | 傅作宝;张魁;起淑清 .含磷深冲高强度冷轧汽车板的特性[J].钢铁,1991,27:48-53. |
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