• 韓林海
    職稱: 教授
    通信地址: 北京市海淀區清華園清華大學土木工程系
    郵編: 100084
    電話號碼: 010-62797067
    E-mail: lhhan@tsinghua.edu.cn
    傳真: 010-62797067
    教育背景
    [1] 1985.8-1989.7:大連理工大學土木工程系,獲工學學士學位。
    [2] 1989.8-1993.7:哈爾濱建筑大學(原哈爾濱建筑工程學院)建筑工程系,獲工學博士學位。
    工作履歷
    [1] 1993.8 - 1995.4:中國地震局工程力學研究所、博士后;1994年晉升為副研究員。
    [2] 1995.5 - 1997.3:大連理工大學土木工程系、博士后;1996年晉升為研究員。
    [3] 1997.4 - 2000.7:哈爾濱建筑大學(現哈爾濱工業大學)建筑工程系,研究員,組合結構研究室主任;1999年被遴選為博士生導師。
    [4] 2000.8 - 2005.6:福州大學特聘教授、博士生導師;2004年開始任土木建筑工程學院副院長。
    [5] 2005.7 - 2010.7:清華大學土木水利學院土木工程系,教授、博士生導師;2007年開始任防災減災工程研究所所長。
    [6] 2010.8 - 2016.12:清華大學土木水利學院土木工程系主任,教授、博士生導師。
    [7] 2017.1 - 迄今:清華大學土木水利學院副院長,教授、博士生導師。
    開設課程
    1.本科生課程:“災害及其對策”等
    2.研究生課程:“鋼-混凝土組合結構(鋼管混凝土)”等
    研究領域
    鋼管混凝土及其混合結構;鋼-混凝土組合結構抗火
    學術兼職
    [1] 中國消防協會,常務理事
    [2] 中國鋼結構協會專家委員會,委員
    [3] 中國建筑金屬結構協會建筑鋼結構專家委員會,委員
    [4] 中國土木工程學會工程防火技術分會,副理事長
    [5] 中國建筑學會建筑防火綜合技術分會,副理事長
    [6] 中國鋼結構協會鋼-混凝土組合結構分會,副理事長
    [7] 中國鋼結構協會鋼結構防火與防腐分會,副理事長
    [8] 中國工程建設標準化協會,理事
    [9] 《土木工程學報》,副主編
    [10] 《工程力學》、《消防科學與技術》、《工業建筑》、《地震工程與工程振動》和《建筑結構》等期刊,編委
    [11] 《Journal of Constructional Steel Research》、《Engineering Structures》、《Steel and Composite Structures》、《Journal of Structural Fire Engineering》、《Advanced Steel Construction》、《International Journal of High-Rise Buildings》和《Advances in Structural Engineering》雜志,編委
    [12] 《Structures》(Research Journal of The Institution of Structural Engineers),副主編
    [13] Institution of Structural Engineers, Fellow & Chartered Structural Engineer
    [14] The Institution of Civil Engineers, Fellow
    獎勵與榮譽
    [1] 國家教育委員會科技進步一等獎(甲類,排序第二),1995年
    [2] 霍英東教育基金,1996年
    [3] “國家百千萬人才工程” 第一、二層次人選,1996年
    [4] 國務院政府特殊津貼,1997年
    [5] 建設部(現住建部)“有突出貢獻的中青年專家”稱號,1997年
    [6] 第五屆“福建省十大杰出青年”提名獎,2001年
    [7] 第七屆福建青年科技獎,2003年
    [8] “福建省高校優秀共產黨員”稱號,2003年
    [9] “福建省師德先進個人”稱號,2004年
    [10] 福建省科技進步二等獎(排序第一),2004年
    [11] 國家杰出青年科學基金,2004年
    [12] 霍英東教育基金會高校青年教師獎(研究類),2004年
    [13] 入選清華大學“百人計劃”,2005年
    [14] 清華大學“先進工作者”稱號,2007年
    [15] 第十屆“茅以升北京青年科技獎”,2008年
    [16] 福建省科技進步二等獎(排序第一),2009年
    [17] 中國公路學會科學技術一等獎(排序第五),2012年
    [18] 四川省科技進步一等獎(排序第四),2013年
    [19] 清華大學優秀共產黨員,2013年
    [20] Distinguished Visiting Fellowship, the Royal Academy of Engineering of UK, 2013年
    [21] 教育部長江學者特聘教授,2014年
    學術成果
    學術著作:
    [1] 韓林海. 鋼管混凝土結構(第三版)(2000年第一版;2004年第一版修訂版;2007年第二版). 北京: 科學出版社, 2016
    [2] 韓林海,宋天詣. 鋼-混凝土組合結構抗火設計原理. 北京: 科學出版社,2012
    [3] 韓林海, 陶忠, 王文達. 現代組合結構和混合結構-試驗、理論和方法. 北京: 科學出版社, 2009
    [4] 韓林海, 楊有福. 現代鋼管混凝土結構技術(第二版). 北京: 中國建筑工業出版社, 2007
    學術論文:
    [1] Han Lin-Hai, Wang Zhi-Bin, Xu Wu and Tao Zhong. 2016. Behavior of concrete-encased CFST members under axial tension. Journal of Structural Engineering, 10.1061/(ASCE)ST.1943-541X.0001422, 04015149.1-12
    [2] Han Lin-Hai, Xu Wu, He Shan-Hu and Tao Zhong. 2015. Flexural behaviour of concrete-filled-steel-tubular (CFST) chord to hollow tubular brace truss: experiment. Journal of Constructional Steel Research, 109: 137-151
    [3] Han Lin-Hai, Tan Qing-Hua and Song Tian-Yi. 2015. Fire performance of steel reinforced concrete (SRC) columns. Journal of Structural Engineering, ASCE, 141(4): 04014128.1-9
    [4] Han Lin-Hai, An Yu-Feng, Roeder Charles, Ren Qing-Xin. 2015. Performance of concrete-encased CFST box members under bending. Journal of Constructional Steel Research. 106: 138-153
    [5] Han Lin-Hai, Hou Chuan-Chuan and Wang Qing-Li. 2014. Behavior of circular CFST stub columns under sustained load and chloride corrosion. Journal of Constructional Steel Research. 103: 23-36
    [6] Han Lin-Hai, Li Wei and Bjorhovde Reidar. 2014. Developments and advanced applications of concrete-filled steel tubular (CFST) structures: Members. Journal of Constructional Steel Research,100: 211-228
    [7] Han Lin-Hai, An Yu-Feng. 2014. Performance of concrete-encased CFST stub columns under axial compression. Journal of Constructional Steel Research. 93: 62-76
    [8] Han Lin-Hai, Hou Chuan-Chuan, Zhao Xiao-Ling and Rasmussen Kim J. R. 2014. Behaviour of high-strength concrete filled steel tubes under transverse impact loading. Journal of Constructional Steel Research, 92: 25-39
    [9] Han Lin-Hai, Chen Feng, Liao Fei-Yu, Tao Zhong and Uy Brian. 2013. Fire performance of concrete filled stainless steel tubular columns. Engineering Structures, 56:165-181
    [10] Han Lin-Hai, He Shan-Hu, Zheng Lian-Qiong and Tao Zhong. 2012. Curved concrete filled steel tubular (CCFST) built-up members under axial compression: Experiments. Journal of Constructional Steel Research, 74: 63-75
    [11] Han Lin-Hai, Wang Wei-Hua and Yu Hong-Xia. 2012. Analytical behaviour of RC beam to CFST column frames subjected to fire. Engineering Structures, 36(3): 394-410
    [12] Han Lin-Hai, Hou Chao and Wang Qing-Li. 2012. Square concrete filled steel tubular (CFST) members under loading and chloride corrosion: Experiments. Journal of Constructional Steel Research, 71(4): 11-25.
    [13] Han Lin-Hai, Li Yong-Jin and Liao Fei-Yu. 2011. Concrete-filled double skin steel tubular (CFDST) columns subjected to long-term sustained loading. Thin Walled Structures, 49(12): 1534-1543
    [14] Han Lin-Hai, He Shan-Hu and Liao Fei-Yu. 2011. Performance and calculations of concrete filled steel tubes (CFST) under axial tension. Journal of Constructional Steel Research, 67(11): 1699-1709
    [15] Han Lin-Hai, Zheng Lian-Qiong, He Shan-Hu and Tao Zhong. 2011. Tests on curved concrete filled steel tubular members subjected to axial compression. Journal of Constructional Steel Research, 67(6): 965-976
    [16] Han Lin-Hai, Wang Wen-Da and Tao Zhong. 2011. Performance of circular CFST column to steel beam frames under lateral cyclic loading. Journal of Constructional Steel Research, 67(5): 876-890
    [17] Han Lin-Hai, Ren Qing-Xin and Li Wei. 2011. Tests on stub stainless steel-concrete-carbon steel double-skin tubular (DST) columns. Journal of Constructional Steel Research, 67(3): 437-452
    [18] Han Lin-Hai, Wang Wei-Hua and Yu Hong-Xia. 2010. Experimental behaviour of reinforced concrete (RC) beam to concrete-filled steel tubular (CFST) column frames subjected to ISO-834 standard fire. Engineering Structures, 32(10): 3130-3144
    [19] Han Lin-Hai and Li Wei. 2010. Seismic performance of CFST column to steel beam joint with RC slab: Experiments. Journal of Constructional Steel Research, 66(11): 1374-1386
    [20] Han Lin-Hai, Ren Qing-Xin and Li Wei. 2010. Tests on inclined, tapered and STS concrete-filled steel tubular (CFST) stub columns. Journal of Constructional Steel Research, 66(10): 1186-1195
    [21] Han Lin-Hai, Tao Zhong, Liao Fei-Yu and Xu Yi. 2010. Tests on cyclic performance of FRP-concrete-steel double-skin tubular columns. Thin Walled Structures, 48(6): 430-439
    [22] Han Lin-Hai, Zheng Yong-Qian and Tao Zhong. 2009. Fire performance of steel-reinforced concrete beam-column joints. Magazine of Concrete Research, 61(7): 499-518
    [23] Han Lin-Hai, Liao Fei-Yu, Tao Zhong and Hong Zhe. 2009. Performance of concrete filled steel tube reinforced concrete columns subjected to cyclic bending. Journal of Constructional Steel Research, 65(8-9): 1607-1616
    [24] Han Lin-Hai, Qu Hui, Tao Zhong and Wang Zai-Feng. 2009. Experimental behaviour of thin-walled steel tube confined concrete column to RC beam joints under cyclic loading. Thin Walled Structures, 47(8-9): 847–857
    [25] Han Lin-Hai, Huang Hong and Zhao Xiao-Ling. 2009. Analytical behaviour of concrete-filled double skin steel tubular (CFDST) beam-columns under cyclic loading. Thin Walled Structures, 47(6-7): 668-680
    [26] Han Lin-Hai, Li Wei and Yang You-Fu. 2009. Seismic behaviour of concrete-filled steel tubular frame to RC shear wall high-rise mixed structures. Journal of Constructional Steel Research, 65(5): 1249-1260
    [27] Han Lin-Hai, Tao Zhong and Yao Guo-Huang. 2008. Behaviour of concrete-filled steel tubular members subjected to shear and constant axial compression. Thin-Walled Structures, 46(7-9): 765-780
    [28] Han Lin-Hai, Wang Wen-Da and Zhao Xiao-Ling. 2008. Behaviour of steel beam to concrete-filled SHS column frames: finite element model and verifications. Engineering Structures, 30(6):1647-1658
    [29] Han Lin-Hai, Liu Wei and Yang You-Fu. 2008. Behaviour of concrete-filled steel tubular stub columns subjected to axially local compression. Journal of Constructional Steel Research, 64(4): 377–387
    [30] Han Lin-Hai, Liu Wei and Yang You-Fu. 2008. Behavior of thin walled steel tube confined concrete stub columns subjected to axial local compression. Thin-Walled Structures, 46(2): 155-164
    [31] Han Lin-Hai, Yao Guo-Huang and Tao Zhong. 2007. Behaviors of concrete-filled steel tubular members subjected to combined loading. Thin Walled Structures, 45(6): 600-619
    [32] Tao Zhong, Han Lin-Hai and Wang Dong-Ye. 2007. Experimental behaviour of concrete-filled stiffened thin-walled steel tubular columns. Thin Walled Structures, 45(5): 517-527
    [33] Han Lin-Hai, Huo Jing-Si and Wang Yong-Chang. 2007. Behavior of steel beam to concrete-filled steel tubular column connections after exposure to fire. Journal of Structural Engineering, ASCE, 133(6):800-814
    [34] Han Lin-Hai, Yao Guo-Huang and Tao Zhong. 2007. Performance of concrete-filled thin-walled steel tubes under pure torsion. Thin-Walled Structures, 45(1): 24-36
    [35] Han Lin-Hai, Lin Xiao-Kang and Wang Yong-Chang. 2006. Cyclic performance of repaired concrete-filled steel tubular columns after exposure to fire. Thin Walled Structures, 44(10): 1063-1076
    [36] Han Lin-Hai, Zheng Yong-Qian and Teng Jin-Guang. 2006. Fire resistance of RC and FRP-confined RC columns. Magazine of Concrete Research, 58(8):533-546
    [37] Han Lin-Hai, Huang Hong, Tao Zhong and Zhao Xiao-Ling. 2006. Concrete-filled double skin steel tubular (CFDST) beam-columns subjected to cyclic bending. Engineering Structures, 28(12):1698-1714
    [38] Han Lin-Hai, Lu Hui, Yao Guo-Huang and Liao Fei-Yu. 2006. Further study on the flexural behaviour of concrete-filled steel tubes. Journal of Constructional Steel Research, 62(6): 554-565
    [39] Han Lin-Hai, Yao Guo-Huang and Zhao Xiao-Ling. 2005. Tests and calculations for hollow structural steel (HSS) stub columns filled with self-consolidating concrete (SCC). Journal of Constructional Steel Research, 61(9): 1241-1269
    [40] Han Lin-Hai, Huo Jing-Si and Wang Yong-Chang. 2005. Compressive and flexural behaviour of concrete filled steel tubes after exposure to standard fire. Journal of Constructional Steel Research, 61(7): 882-901
    [41] Han Lin-Hai and Yang You-Fu. 2005. Cyclic performance of concrete-filled steel CHS columns under flexural loading. Journal of Constructional Steel Research, 61(4): 423-452
    [42] Han Lin-Hai and Lin Xiao-Kang. 2004. Tests on cyclic behavior of concrete-filled hollow structural steel columns after exposure to the ISO-834 standard fire. Journal of Structural Engineering, ASCE, 130(11):1807-1819
    [43] Han Lin-Hai, Tao Zhong and Liu Wei. 2004. Effects of sustained load on concrete-filled hollow structural steel columns. Journal of Structural Engineering, ASCE, 130(9): 1392-1404
    [44] Han Lin-Hai, Yao Guo-Huang and Zhao Xiao-Ling. 2004. Behavior and calculation on concrete-filled steel CHS (circular hollow section) beam-columns. Steel and Composite Structures, 4(3): 169-188
    [45] Han Lin-Hai and Yao Guo-Huang. 2004. Experimental behaviour of thin-walled hollow structural steel (HSS) columns filled with self-consolidating concrete (SCC). Thin Walled Structures, 42(9): 1357-1377
    [46] Han Lin-Hai. 2004. Flexural behaviour of concrete filled steel tubes. Journal of Constructional Steel Research, 60(2): 313-337
    [47] Han Lin-Hai and Yao Guo-Huang. 2003. Behaviour of concrete-filled hollow structural steel (HSS) columns with pre-load on the steel tubes. Journal of Constructional Steel Research, 59(12): 1455-1475
    [48] Han Lin-Hai and Yao Guo-Huang. 2003. Influence of concrete compaction on the strength of concrete-filled steel RHS columns. Journal of Constructional Steel Research, 59(6): 751-767
    [49] Han Lin-Hai, Zhao Xiao-Ling, Yang You-Fu and Feng Jiu-Bin. 2003. Experimental study and calculation of fire resistance of concrete-filled hollow steel columns. Journal of Structural Engineering, ASCE, 129(3): 346-356
    [50] Han Lin-Hai and Huo Jing-Si. 2003. Concrete-filled hollow structural steel columns after exposure to ISO-834 fire standard. Journal of Structural Engineering, ASCE, 129(1): 68-78
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