Full-Text Search:
Home|Journal Papers|About CNKI|User Service|FAQ|Contact Us|中文
《Iron & Steel》 2009-12
Add to Favorite Get Latest Update

Temperature Detection and Heat Transfer Analysis for Copperplate of CSP Process Funnel Shaped-Mould in Masteel

DING Yi1,2,ZHANG Hui1,TAO Hong-biao1,ZHANG Zong-ning2,CHEN Yuan-qing1,LIU Ai-qiang1(1.National Engineering and Research Center of Continuous Casting Technology,CISRI,Beijing 100081,China;2.Technology Center of Ma'anshan Iron and Steel Co.,Ltd.,Ma'anshan 243000,Anhui,China)  
The copperplate temperature in different conditions and different time were collected on line using mould temperature monitoring soft of the continuous thin slab caster in Ma'anshan Iron and Steel Co.,Ltd.,and also the mould copperplate temperature change regularity was analyzed in order to obtain proper heat flux boundary conditions for solving thin slab flow,heat transfer and solidification model and references for revealing crack formation mechanism of mould copperplate and slab.According to actual cooling parameter and measured temperature of copperplate,the mould heat flux field has been calculated while producing the SPHC steel slabs whose section were 1 275 mm × 70 mm and 1 525 mm × 70 mm respectively at different casting speed.The results show that distribution of copperplate temperature and heat flux of the mould was similar on the same conditions.Both of them had downtrend in the longitudinal direction of mould.Their fluctuations are obvious in the transverse direction of mould especially near meniscus.While the slab whose width was 1 275 mm and 1 525 mm were cast with the same nozzle,distribution curves of copperplate temperature and heat flux of the mould on the whole presented to be "M" and "W" shape in the transverse direction respectively.In another word,the maximum value of copper temperature and the heat flux were in the quarter and centerline of copperplate broadside respectively.The maximum heat flux was 4.6 MW/m2.
【Fund】: 国家自然科学基金资助项目(50674034)
【CateGory Index】: TF777
Download(CAJ format) Download(PDF format)
CAJViewer7.0 supports all the CNKI file formats; AdobeReader only supports the PDF format.
【Citations】
Chinese Journal Full-text Database 5 Hits
1 Yan Bo;Wen guanghua;Zhang Peiyuan;He Junfan;3-D Finite Element Analysis of Solidified Shell in Molds for Continuous Casting of Thin Slabs[J];JOURNAL OF CHONGQING UNIVERSITY(NATURAL SCIENCE EDITION);1996-03
2 YIN Ruiyu(Central Iron and Steel Research Institute);EQUIPMENT OPTIMIZATION AND INVESTMENT OF THIN SLAB CASTING ROLLING IN CHINA[J];Iron and Steel;2003-08
3 YANG Jie, YANG Xiao-jiang, DU Hong-bo, SUN Cai-jun(Hot-Rolling Thin Sheet Plant, Tangshan Iron and Steel Company, Tangshan, Hebei, 063016);ANALYSIS OF TEMPERATURE FIELD IN THIN SLABCONTINUOUS-CASTING MOLD IN FTSC PROCESS[J];Hebei Metallurgy;2005-02
4 YANG Gang~1 LI Baokuan~1 YU Yang~2 QI Fengsheng~1 1)School of Materials and Metallurgy,Northeastern University,Shenyang 110004 2)School of Mechanical Engineering,Tianjin University,Tianjin 300072;THREE DIMENSIONAL HEAT TRANSFER OF COOLING COPPER PLATE OF THIN SLAB CONTINUOUS CASTING MOLD[J];Acta Metallurgica Sinica;2007-03
5 Wen Guanghua Li Gang Zhang Jian Chun (Cahongqing University) Liu Xiaomei Fang Yuan (Baoshan Iron and steel Group Corporation);DIGITAL SIMULATION OF THE TRI-DIMENTIONAL FLOW FIELD AND TEMPERATURE FIELD OF THIN SLAB CONTINUOUS CASTING MOLD[J];STEELMAKING;1997-04
【Co-citations】
Chinese Journal Full-text Database 10 Hits
1 YU Huixiang, ZHANG Jiongming, WANG Wanjun, WANG Xinhua, YANG Zhenya, YANG Lixin Metallurgy School, UST Beijing, Beijing 100083, China Beijing Agency of ATE;Numerical Simulation of Fluid Flow in Continuous Slab-Casting Mold[J];Journal of University of Science and Technology Beijing;2002-05
2 LIU Guo-lin,WU Su-zhou,ZHANG Jiong-ming,WANG Wan-jun,WANG Xin-hua School of Metallurgical and Ecological Engineering,University of Science and Technology Beijing,Beijing 100083,China;Numerical simulation on the surface fluctuation of molten steel in a wide slab continuous casting mold[J];Journal of University of Science and Technology Beijing;2009-02
3 Yan Bo\ Wen Guanghua\ Zhang Peiyuan\ He Junfan (Chongqing University);Numerical Analysis for Stresses and Deformations of solidified shell in ISP Type Mould for Continuous Casting of Thin Slabs[J];JOURNAL OF CHONGQING JIAOTONG INSTITUTE;1997-01
4 ZHANG Hui~1, TAO Hong-biao~1, LIU Ai-qiang~1, ZHANG Zhen-biao~2, WANG Jin-bu~2, ZHUANG Han-zhou~3 (1. National Engineering and Research Center for Continuous Casting Technology, Central Iron and Steel Research Institute, Beijing 100081, China; 2. Technical Center, Zhujiang Iron and Steel Group Co., Guangzhou 510730, China; 3. Technical Center, Guangzhou Iron and Steel Group Co., Guangzhou 510381, China);Distribution of Temperature and Heat Flux Density of Thin Slab Continuous Casting Mould Copper Plate[J];Iron and Steel;2005-07
5 ZHANG Hui~1,ZHAO Lian-gang~2,TAO Hong-biao~1, LIU Ai-qiang~1,LI Lie-jun~3 (1.National Engineering and Research Center for Continuous Casting Technology,Central Iron and Steel Research Institute,Beijing 100081,China;2.Department of Science and Technology,Anshan University of Science and Technology,Anshan 114044,Liaoning,China;3.Technical Center,Guangzhou Iron and Steel Group Co.,Guangzhou 510381,Guangdong,China);Numerical Simulation on Fluid Flow and Heat Transfer Behaviors in Mould of CSP Thin Slab Caster[J];Iron & Steel;2006-05
6 WANG Yi-fang(Handan Iron and Steel Group Co.,Handan 056015,Hebei,China);Influencing Factors of Longitudinal Surface Cracking of CSP Slab[J];Iron & Steel;2006-07
7 CAO LI-jun,ZHU Li-guang,XUE Yong-qiang(1.Hebei Polytechnic University,Tangshan Hebei 063009,China;2.Iron and Steel Co.Tangshan Hebei 063000,China);Mathematical Simulation of Solidification and Heat Transfer for Steel in Mould of Thin Slab Casting[J];Journal of Hebei Institute of Technology;2006-03
8 Xu Rongjun (Baoshan Iron & Steel Co.Ltd);TECHNOLOGICAL & ECONOMIC ADVANTAGE OF THIN SLAB CONTINUOUS CASTING & ROLLING[J];Henan Metallurgy;2004-04
9 ZHAO Lian-gang1,ZHANG Hui2(1.School of Material Science and Engineering,University of Science and Technology Liaoning,Anshan 114044,Liaoning,China;2.National Engineering Research Center of Continuous Casting Technology,CentralIron and Steel Research Institute,Beijing 100081,China);Numerical Studies on Comprehensive Metallurgical Behaviors in Continuous Casting Mold[J];Journal of Iron and Steel Research;2007-05
10 Lei Jianmin Song Weiping Chui Xiaochao (Taiyuan Heavny Machinery Ins titute);3-D COUPLED NUMERICAL SIMULATION FOR THE FLOW FIELD AND TEM PERATURE FIELD ON ELECTROMAGNETIC STIRRING IN BILLET CONTINUOUS CASTING[J];Chinese Journal of Mechanical Engineering;2001-07
China Proceedings of conference Full-text Database 5 Hits
1 Zhao Yanhua Hu Zhigang Sun yuhu Li runchun Gai lingjun(Handan Iron & Steel Group Corporation,Ltd);Premelted Slag Infdtration Desulphurization Experiment During Converter Tapping[A];[C];2008
2 WANG Lei SHEN Houfa (Department of Mechanical Engineering, Tsinghua University);Numerical Simulation on Fluid Flow in Thin Slab Continuous Casting- CSP Mold[A];[C];2003
3 WANG yifang (Handan Iron & Steel Group Sold CO., Ltd, Handan 056015,China);Formation Mechanism and Influencing Factors of Longitudinal Surface Cracks of CSP Slab[A];[C];2005
4 ZHANG Hui, ZHAO Lian-gang, TAO Hong-biao, LIU Ai-qiang (National Engineering & Research Center of Continuous Casting Technology, CISRI, Beijing 100081, China; Anshan University of Science & Technology, Anshan 114044, China);Studies on Comprehensive Metallurgical Behaviors in Mold of CSP ThinSlab Caster[A];[C];2005
5 Ma Chunlin Zhou Yingchao Gu Fenglong Hu Zhigang (Handan Iron & Steel Group Sold Co., Ltd.);INFLUENCE OF MIDDLE CARBON STEEL CHEMICAL COMPOSITION ON LONGITUDINAL SURFACE CRACKS OF CSP SLAB AT HANDAN IRON & STEEL GROUP SOLD CO. ,LTD.[A];[C];2005
【Secondary Citations】
Chinese Journal Full-text Database 2 Hits
1 ZHANG Xingzhong NA Xianzhao NI Mansen (Central Iron and Steel Research Institute);REVIEW OF KEY POINTS IN HIGH-EFFICIENT CONTINUOUS CASTING[J];IRON AND STEEL;2000-04
2 ZHANG Hui~1, TAO Hong-biao~1, LIU Ai-qiang~1, ZHANG Zhen-biao~2, WANG Jin-bu~2, ZHUANG Han-zhou~3 (1. National Engineering and Research Center for Continuous Casting Technology, Central Iron and Steel Research Institute, Beijing 100081, China; 2. Technical Center, Zhujiang Iron and Steel Group Co., Guangzhou 510730, China; 3. Technical Center, Guangzhou Iron and Steel Group Co., Guangzhou 510381, China);Distribution of Temperature and Heat Flux Density of Thin Slab Continuous Casting Mould Copper Plate[J];Iron and Steel;2005-07
©2006 Tsinghua Tongfang Knowledge Network Technology Co., Ltd.(Beijing)(TTKN) All rights reserved