连铸保护渣开发状况分析
|
摘要
对连铸保护渣的发展历程进行了详细介绍,对保护渣的渣层结构控制、绝热保温、防止氧化、润滑、改善传热和吸收夹杂物等冶金功能进行了论述,并按生产方式的不同对几种保护渣的加工方式及优缺点进行了分析,对无氟保护渣、超低碳保护渣、彩色保护渣及高铝钢保护渣的研究现状进行了简要介绍。
The development history of mold fluxes for continuous casting was introduced in detail. Such metallurgical functions as controlling the structures of slag layers of mold fluxes, heat insulation and heat preservation, preventing oxidation, lubricating, improving heat transfer and absorbing inclusions were discussed. Then processing modes and advantages and disadvantages based on different production modes on several kinds of mold fluxes were analyzed. Finally, the latest developments on non-fluorine mold fluxes, ultra-low carbon mold fluxes, color mold fluxes and mold fluxes for molten steel with high content of aluminium were briefly described.
The development history of mold fluxes for continuous casting was introduced in detail. Such metallurgical functions as controlling the structures of slag layers of mold fluxes, heat insulation and heat preservation, preventing oxidation, lubricating, improving heat transfer and absorbing inclusions were discussed. Then processing modes and advantages and disadvantages based on different production modes on several kinds of mold fluxes were analyzed. Finally, the latest developments on non-fluorine mold fluxes, ultra-low carbon mold fluxes, color mold fluxes and mold fluxes for molten steel with high content of aluminium were briefly described.
引文
[1]迟景灏.连铸保护渣[M].沈阳:东北大学出版社,1992.
[2]蔡开科.连续铸钢[M].北京:冶金工业出版社,1990.
[3]卢盛意.连铸坯质量[M].北京:冶金工业出版社,2000.
[4]Branion R V.Mold fluxes for continuous casting[J].Iron and Steel Make,1986,13(9):41-50.
[5]李殿明,邵明天,杨宪礼,等.连铸结晶器保护渣应用技术[M].北京:冶金工业出版社,2008.
[6]蔡开科,程士富.连续铸钢原理与工艺[M].北京:冶金工业出版社,1994.
[7]Mahapatra R B,Brimacombe J K.Mold behavior and its influence on quality in the continuous casting of steel slabs[J].Metallurgical Transactions,1991,22(12):875-881.
[8]刘承军,姜茂发.连铸保护渣的绝热保温性能[J].钢铁研究学报,2002,24(3):11-14.
[9]Pinheiro C A.Mold flux for continuous casting of steel[J].Iron and Steel Maker,1996,23(3):85-88.
[10]中户参.对结晶润滑有影响的连铸保护渣的物性试验及其理论分析[J].宝钢情报,1990(1):33-41.
[11]Hanao M,Kawamoto M.Flux film in the mold of high speed continuous casting[J].ISIJ International,2008,48(2):180-185.
[12]王谦,迟景灏.连铸含铝钢A12O3夹杂与结晶器保护渣的作用[J].四川冶金,1991,13(3):46-53.
[13]潘贻芳.转炉炼钢功能性辅助材料连铸保护渣[M].北京:冶金工业出版社,2007.
[14]韩文殿,仇圣桃,朱果灵.无氟结晶器保护渣的发展[J].钢铁研究,2003(4):53-56.
[15]Sakamaki T.Form of Fluorine in Na2O-NaF-SiO2slags Determined by Infrared Spectroscopy[J].Ironmaking and Steelmaking,2003,30(5):396-398.
[16]何生平,徐楚韶,王谦,等.无氟连铸保护渣有关技术问题的探讨[J].钢铁研究学报,2007,19(7):1-4.
[17]姜茂发,刘承军,王云盛,等.超低碳钢连铸保护渣的发展[J].炼钢,2000,16(3):52-55.
[18]Terada S,Machingawuta N,et a1.Physical Properties of Casting Powders Mineralogical Constitution of Slags Formed by Powders[J].Ironmaking and Steelmaking,1988,15(4):181-186.
[19]Nakada H,Nagata K.Crystallization of CaO-SiO2-Ti O2slag as a candidate for fluorine free mold flux[J].ISIJ international,2006,46(3):441-449.
[20]Kashiwaya Y,Nakauchi T,Pham K S,et a1.Crystallization behaviors concernedwith TTT and CCT diagrams of blast furnace slag using hot thermocouple technique[J].ISIJinternational,2007,47(1):44-52.
[21]西峡龙成冶金材料有限公司.一种超低碳钢用彩色连铸结晶器保护渣:中国,CN103121089A.[P].2013-08-29.
[22]王家荫,迟景灏.含铝钢连铸保护渣的研究[J].重庆大学学报,1988(4):6-12.
[23]Itoh I,Ohmura K.Development of ferritic stainless steel foil as metal support for automotive catalytic converter[J].Nippon Steel Technical Rep,1995(64):69-73.
[24]谢兵.连铸结晶器保护渣相关基础理论的研究及其应用实践[D].重庆:重庆大学,2004.
[25]董金刚,迟景灏,王谦.高碱性高玻璃化连铸保护渣成分区域研究[J].钢铁,2000,35(2):22-24.
[2]蔡开科.连续铸钢[M].北京:冶金工业出版社,1990.
[3]卢盛意.连铸坯质量[M].北京:冶金工业出版社,2000.
[4]Branion R V.Mold fluxes for continuous casting[J].Iron and Steel Make,1986,13(9):41-50.
[5]李殿明,邵明天,杨宪礼,等.连铸结晶器保护渣应用技术[M].北京:冶金工业出版社,2008.
[6]蔡开科,程士富.连续铸钢原理与工艺[M].北京:冶金工业出版社,1994.
[7]Mahapatra R B,Brimacombe J K.Mold behavior and its influence on quality in the continuous casting of steel slabs[J].Metallurgical Transactions,1991,22(12):875-881.
[8]刘承军,姜茂发.连铸保护渣的绝热保温性能[J].钢铁研究学报,2002,24(3):11-14.
[9]Pinheiro C A.Mold flux for continuous casting of steel[J].Iron and Steel Maker,1996,23(3):85-88.
[10]中户参.对结晶润滑有影响的连铸保护渣的物性试验及其理论分析[J].宝钢情报,1990(1):33-41.
[11]Hanao M,Kawamoto M.Flux film in the mold of high speed continuous casting[J].ISIJ International,2008,48(2):180-185.
[12]王谦,迟景灏.连铸含铝钢A12O3夹杂与结晶器保护渣的作用[J].四川冶金,1991,13(3):46-53.
[13]潘贻芳.转炉炼钢功能性辅助材料连铸保护渣[M].北京:冶金工业出版社,2007.
[14]韩文殿,仇圣桃,朱果灵.无氟结晶器保护渣的发展[J].钢铁研究,2003(4):53-56.
[15]Sakamaki T.Form of Fluorine in Na2O-NaF-SiO2slags Determined by Infrared Spectroscopy[J].Ironmaking and Steelmaking,2003,30(5):396-398.
[16]何生平,徐楚韶,王谦,等.无氟连铸保护渣有关技术问题的探讨[J].钢铁研究学报,2007,19(7):1-4.
[17]姜茂发,刘承军,王云盛,等.超低碳钢连铸保护渣的发展[J].炼钢,2000,16(3):52-55.
[18]Terada S,Machingawuta N,et a1.Physical Properties of Casting Powders Mineralogical Constitution of Slags Formed by Powders[J].Ironmaking and Steelmaking,1988,15(4):181-186.
[19]Nakada H,Nagata K.Crystallization of CaO-SiO2-Ti O2slag as a candidate for fluorine free mold flux[J].ISIJ international,2006,46(3):441-449.
[20]Kashiwaya Y,Nakauchi T,Pham K S,et a1.Crystallization behaviors concernedwith TTT and CCT diagrams of blast furnace slag using hot thermocouple technique[J].ISIJinternational,2007,47(1):44-52.
[21]西峡龙成冶金材料有限公司.一种超低碳钢用彩色连铸结晶器保护渣:中国,CN103121089A.[P].2013-08-29.
[22]王家荫,迟景灏.含铝钢连铸保护渣的研究[J].重庆大学学报,1988(4):6-12.
[23]Itoh I,Ohmura K.Development of ferritic stainless steel foil as metal support for automotive catalytic converter[J].Nippon Steel Technical Rep,1995(64):69-73.
[24]谢兵.连铸结晶器保护渣相关基础理论的研究及其应用实践[D].重庆:重庆大学,2004.
[25]董金刚,迟景灏,王谦.高碱性高玻璃化连铸保护渣成分区域研究[J].钢铁,2000,35(2):22-24.