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Shi Gang
Position:Professor
Address:Department of Civil Engineering, Tsinghua University, Beijing 100084, China
Tel:+86-10-6279-7420
Fax:+86-10-6278-8623
E-mail: shigang@tsinghua.edu.cn
Personal Homepage
Educational Background
2000.9-2005.1 Department of Civil Engineering, Tsinghua University, Ph.D in Civil Engineering
1998.9-2000.7 School of Economics and Management, Tsinghua University, Bachelor of Economics in Business Administration
1995.9-2000.7 Department of Civil Engineering, Tsinghua University, Bachelor of Engineering in Civil Engineering
Work Experience
2014.12-present Professor in Department of Civil Engineering, Tsinghua University, China
2009.12-2014.12 Associate Professor in Department of Civil Engineering, Tsinghua University, China
2014.7-2014.9 Japan Society for the Promotion of Science(JSPS) Invitation Fellow, Disaster Prevention Research Institute, Kyoto University, Japan
2010.6-2010.8 Visiting Fellow in Faculty of Engineering, K.U.Leuven, Belgium
2009.7-2009.9 Postdoctoral Fellow in Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hong Kong
2007.5-2007.7 Visiting Academic in School of Civil & Environmental Engineering, The University of New South Wales, Australia
2006.4-2007.4 Postdoctoral Senior Research Fellow in Faculty of Civil Engineering and Geosciences, Delft University of Technology, The Netherlands
2005.3-2009.12 Lecturer in Department of Civil Engineering, Tsinghua University, China
Teaching Courses
1. Building Structures
2. Steel Structures
3. Steel Structure Project Design
Research Interests
1. High Strength Steel Structures
2. Seismic Behavior of Steel Structures
3. Steel Structural Connections
4. Low-Yield-Point Steel Structures
5. Steel Frames and Long Span Steel Structures
6. Steel Bridge Fatigue and Fracture
7. Post-Fire Behavior of Steel Structures
8. Strengthening and Retrofitting of Steel Structures
9. High Performance Steel Structures
10. Semi-Rigid Frames
11. Glass Building Structures
12. Cable Net Structures
Research Projects
(1) Excellent Young Scientist Programme of the National Natural Science Foundation of China (Grant No.: 51522806), Jan. 2016-Dec. 2018, “Steel Structures”, PI
(2) National Natural Science Foundation of China (Grant No.: 51478244), Jan. 2015-Dec. 2018, “Study on the Behavior of High Strength Steel Frames under Earthquakes and the Performance-Based Seismic Design Method”, PI
(3) Ministry of Housing and Urban-Rural Development of China (Grant No.: 2013-1-100), Jul. 2013-Dec. 2014, “Codification of High Strength Steel Structures Design Specification”, PI
(4) Scientific Research Project of the Ministry of Railways of China (Grant No.: 2012G011-E), Jul. 2012-Jun. 2014, “Study on the Fatigue Assessment Method of Steel Railway Bridges under Heavy Loads Based on Local-Overall Model”, PI
(5) National Natural Science Foundation of China (Grant No.: 51078205), Jan. 2011-Dec. 2013, “Study on the Interaction Buckling Behaviour of Overall and Local Buckling of High Performance Steel Members under Axial Compression and the Design Method”, PI
(6) National Natural Science Foundation of China (Grant No.: 50708051), Jan. 2008-Dec. 2010, “Study on the Overall Stability and Design Method of New Type Ultra-High Strength Steel Members under Axial Compression”, PI
(7) Bilateral Scientific Cooperation Joint project between Tsinghua University – K.U.Leuven(Grant No.: 200906) Jan. 2010-Dec. 2011, “Fatigue assessment of steel bridges for high speed trains”, PI
(8) Open Fund of State Key Laboratory for Disaster Prevention in Civil Engineering (Grant No.: SLDRCE08-TS-01), May. 2009-May 2011, “Numerical Simulation and Tests on the Instability of High Strength Steel Structures under Severe Earthquakes”, PI
(9) Open Fund of State Key Laboratory of Coastal and Offshore Engineering (Grant No.: LP0901), Jul. 2009-Jun. 2011, “Local Buckling and Design Method of High Strength Steel Columns under Axial Compression”, PI
(10) Research Project of China Electric Power Research Institute, Sep. 2015-Nov. 2015, “Study on the Residual Stress and Low-Temperature Behaviour of 300mm Steel Angles”, PI
(11) Research Project of Shandong Lu Fan Construction Technology Co. Ltd., Mar. 2014-Dec. 2014, “Tests of Prefabricated Steel Frames and the Connections”, PI
(12) Research Project of Shanghai COSCO Kawasaki Heavy Industries Steel Structure Co. Ltd., Nov. 2012-Oct. 2014, “Research on Large-Capacity End-Plate Steel Connections”, PI
(13) Research Project of Shanghai COSCO Kawasaki Heavy Industries Steel Structure Co. Ltd., Aug. 2012-Aug. 2016, “Development and Application of New Technology of Building Steel Structure Products”, PI
(14) The Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education Ministry, “Study on the Local Buckling and Design Method of New Type Ultra-High Strength Steel Members under Axial Compression”, PI
(15) KGE Science Foundation of Tsinghua University (Grant No.: 200803), Dec. 2008- Dec. 2010, “Effect of Damage on Monolayer Cable Net-Supported Glass Facades”, PI
(16) Tsinghua Basic Research Foundation (Grant No.: JCqn2005006), Oct. 2005-Oct. 2007, “Study on the behavior and design method of multi-story semi-rigid steel frame”, PI
(17) KGE Science Foundation of Tsinghua University (Grant No.: 200504), Dec. 2005- Dec. 2007, “Analysis on the Brittle Failure of Glass as Load-Bearing Member”, PI
(18) Tsinghua University Open Laboratory Foundation (Grant No.: LF20071749), Dec. 2007-Dec. 2009, “Behaviour of Aluminum Member”, PI
(19) Key Funding of National Natural Science Foundation of China (Grant No.: 51038006), Jan. 2011-Dec. 2014, “Advanced Design Theory and Structural System of High Performance Steel Structures”, Major Participant
(20) Specialized Research Fund for the Doctoral Program of Higher Education (Areas of Priorities) (Grant No.: 20110002130002), Jan. 2012-Dec.2014, “Experimental Study on the Local and Interaction Buckling Behaviour of Nonlinear Metal Members”, Major Participant
(21) Tsinghua Initiative Scientific Research Program (Grant No.: 20131089288), Jan. 2014-Dec.2016, “Structural Selection and Key Technology of Ultra-Large Neutrino Detector”, Major Participant
(22) Tsinghua Initiative Scientific Research Program (Grant No.: 2012THZ02-2), Jul. 2012-Jun.2015, “Fundamental Theory and Key Technology for Major Infrastructures in Cities to Resist Extremely Strong Earthquakes”, Major Participant
(23) National Natural Science Foundation of China (Grant No.: 90815004), Jan. 2009-Dec. 2011, “Degradation Hysteretic Behaviour and Calculation Model of High-Rise Steel Structures under Severe Earthquakes”, Second Participant
(24) National Natural Science Foundation of China (Grant No.: 50578083), Jan. 2006-Dec. 2008, “Study on seismic behavior of steel frame with composite effect in joint”, Second Participant
(25) Research Foundation of the Ministry of Railways and Tsinghua University(Grant No.: T200410), Jan. 2004- Dec. 2005, “Test research on the toughness of the railroad rail steel and its weld under low temperature”, Major Participant
(26) The Outstanding Teachers Supporting Program of Chinese Ministry of Education, Jan. 2002-Dec. 2004, “Seismic Behavior of Semi-rigid Steel Connections for Multi-storey Buildings”, Second Participant
(27) Natural Science Foundation of Beijing(Grant No.: 8053021), Jan. 2006-Dec.2007, “Study on the safety of large-scale complex steel structures during constructing”, Second Participant
(28) Research Program of Dutch Steel Society, Jan. 2005-Dec. 2008, “Research into the application of high strength and very high strength steel in buildings and civil engineering structures”, Major Participant
(29) Specialized Research Fund for the Doctoral Program of Higher Education (Grant No.: 20050003080), Jan. 2006-Dec.2007, “Study on the Nonlinear Wind Vibration Theory and Design Method of Prestressed Cable Net Curtain Wall”, Major Participant
(30) Research Program of Angang Construction Group Co. Ltd., Aug. 2005-Jul 2010, “Research and Application of New Technology in Steel Structures and Light-Weight Steel Structures”, PI
(31) Research Program of Tongfang Co.,Ltd., Aug. 2007-Jun 2008, “Structural Analysis of Tianyuan Building in Beijing International Olympic Forest Park”, PI
(32) Research Program of Hilti(china) Co.,Ltd., Jul. 2005-Aug 2005, “Explanation of Chinese Steel Structure Design Code”, PI
(33) Research Program of Beijing Building Construction Research Institute, Feb. 2008-Dec 2008, “Safety Evaluation of Glass Curtain Wall Structures and the Test Research of Retrofitting ” , PI
Professional Service
Executive Secretary-General, Institute of Structural Stability and Fatigue, China Steel Construction Society
Member, Committee of Experts, China Steel Construction Society
Member, Committee of Steel Structures, China Association for Engineering Construction Standardization
Reviewer, National Natural Science Foundation of China, every year since 2008
Editorial Board Member, International Journal of Steel Structures
Editorial Panel Member, Proceedings of the Institution of Civil Engineers-Structures and Buildings
Editorial Board Member, Steel Structures (in Chinese)
International Advisory Committee Member, The 8th International Symposium on Steel Structures(ISSS-2015), Jeju, Korea.
International Advisory Committee Member, The 7th International Symposium on Steel Structures(ISSS-2013), Jeju, Korea.
Conference Organizing Committee Secretary, IStructE Conference on Structural Engineering in Hazard Mitigation 2013, Beijing, China
Committee Chairman in charge of High Strength Steel Structures Design Specification of China
Committee Chairman in charge of Technical Specification for the Application of Low-Yield-Point Steel
Committee Member, Design Code for Steel Structures Strengthening of China
Committee Member, Technical Standard for Inspection and Appraisal of High-Rise and Complicated Steel Structures of China
Committee Member, Code of Test Methods for Cruciform Joint of Building Steel Structures of China
Committee Member, Technical Specification of Light-Weight Modular Steel Buildings
Committee Member, Technical Specification for the Assessment of Steel Structures after Fire
Committee Member, Technical Specification of Aluminum Reticulated Structures
Honors and Awards
2015 Excellent Young Scientist of National Natural Science Foundation of China
2011 Second Prize of National Science and Technology Advancement Award of China
2010 First Prize of the Science and Technology Advancement Award of Shandong Province
2009 Second Prize of the Science and Technology Advancement Award of Hunan Province
2006 Prize of the Science and Technology Advancement Award of Beijing
2005 Second Prize of the Natural Science Award of China Education Ministry
2005 Second prize of the Science and Technology Advancement Award of Beijing
2013 First Prize & Best Teaching Plan Prize & Best Presentation Prize, 8th Young Teachers Fundamental Teaching Skills Contest of Beijing Municipal Universities (Engineering Group)
2012 First Prize, 5th Young Teachers Fundamental Teaching Skills Contest of Tsinghua University (Engineering Group)
2012 First Prize of Excellent Paper, 21th National Conference of Structural Engineering
2012 Frontrunner 5000 top articles in outstanding S&T journals of China
2012 Second Prize, Tsinghua University Excellent Grade Director
2013 Tsinghua University Excellent Master Thesis (as supervisor)
2012 Tsinghua University Excellent Master Thesis (as supervisor)
Academic Achievement
Books
[1] Gang Shi, Huiyong Ban, Yongjiu Shi. High Strength Steel Structures. Beijing: China Architecture & Building Press, 2014. (in Chinese)
[2] Yongjiu Shi, Gang Shi, Yuanqing Wang, Hong Chen. Beam-to-Column Connections in Multistory Steel Frames-Theory and Design. Beijing: China Architecture & Building Press, 2014. (in Chinese)
International Journals
[3] Hui Zhou, Gang Shi, Yuanqing Wang, Huating Chen, Guido De Roeck. Fatigue evaluation of a composite railway bridge based on fracture mechanics through global-local dynamic analysis. Journal of Constructional Steel Research. 2016,122:1-13.
[4] Gang Shi, Xi Zhu, Huiyong Ban. Material Properties and Partial Factors for Resistance of High-Strength Steels in China. Journal of Constructional Steel Research. 2016,121:65-79.
[5] Gang Shi, Kelong Xu, Huiyong Ban, Cuocuo Lin. Local Buckling Behavior of Welded Stub Columns with Normal and High Strength Steels. Journal of Constructional Steel Research. 2016,119:144-153.
[6] Lu Yang, Gang Shi, Hao Yin, Xiaohao Shi, Zaoyang Guo. Full-scale experimental study on the influence of damages on the static behavior of the single-layer cable net structure. Structures. 2015,3:153-162.
[7] Liang Zong, Gang Shi, Yuanqing Wang. Experimental Investigation and Numerical Simulation on Fatigue Crack Behavior of Bridge Steel WNQ570 Base Metal and Butt Weld. Construction and Building Materials. 2015,47(2):419-429.
[8] Gang Shi, Wenjing Zhou, Cuocuo Lin. Experimental investigation on the local buckling behavior of 960 MPa high strength steel welded section stub columns. Advances in Structural Engineering. 2015,18(3):423-437.
[9] Liang Zong, Gang Shi, Yuanqing Wang. Experimental Investigation on Fatigue Crack Behavior of Bridge Steel Q345qD Base Metal and Butt Weld. Materials and Design. 2015,66(2):196-208.
[10] Jiaojiao Wang, Gang Shi, Yongjiu Shi. Experimental Research on Behavior of 460 MPa High Strength Steel I-Section Columns under Cyclic Loading. Earthquake Engineering and Engineering Vibration. 2014,13(4):611-622.
[11] Fangxin Hu, Gang Shi, Yu Bai, Yongjiu Shi. Seismic Performance of Prefabricated Steel Beam-to-Column Connections. Journal of Constructional Steel Research. 2014,102(11):204-216.
[12] Gang Shi, Wen-jing Zhou, Yu Bai, Zhao Liu. Local Buckling of Steel Equal Angle Members with Normal and High Strengths. International Journal of Steel Structures. 2014,14(3):447-455.
[13] Gang Shi, Jiaojiao Wang, Yu Bai, Yongjiu Shi. Experimental Study on Seismic Behavior of 460MPa High Strength Steel Box-Section Columns. Advances in Structural Engineering. 2014,17(7):1045-1059.
[14] Gang Shi, Wenjing Zhou, Yu Bai, Cuocuo Lin. Local buckling of 460 MPa high strength steel welded section stub columns under axial compression. Journal of Constructional Steel Research. 2014,100:60-70.
[15] Gang Shi, Xue Jiang, Wenjing Zhou, Tak-Ming Chan, Yong Zhang. Experimental study on column buckling of 420 MPa high strength steel welded circular tubes. Journal of Constructional Steel Research. 2014,100:71-81.
[16] Huiyong Ban, Gang Shi, Yu Bai, Yongjiu Shi, Yuanqing Wang. Residual Stress of 460 MPa High Strength Steel Welded I Section: Experimental Investigation and Modeling. International Journal of Steel Structures. 2013,13(4):691-705.
[17] Gang Shi, Xue Jiang, Wenjing Zhou, Tak-Ming Chan, Yong Zhang. Experimental Investigation and Modeling on Residual Stress of Welded Steel Circular Tubes. International Journal of Steel Structures. 2013,13(3):495-508.
[18] Meng Wang, Yongjiu Shi, Yuanqing Wang, Gang Shi. Numerical study on seismic behaviors of steel frame end-plate connections. Journal of Constructional Steel Research. 2013,90:140-152.
[19] Huiyong Ban, Gang Shi, Yongjiu Shi, Mark A. Bradford . Experimental Investigation of the Overall Buckling Behaviour of 960 MPa High Strength Steel Columns. Journal of Constructional Steel Research. 2013,88:256-266.
[20] Gang Shi, Huiyong Ban, Yu Bai, Yuanqing Wang, Cui Luo, Yongjiu Shi. A Novel Cast Aluminum Joint for Reticulated Shell Structures: Experimental Study and Modeling. Advances in Structural Engineering. 2013,16(6):1047-1059.
[21] Ban HY, Shi G, Shi YJ, Wang YQ. Column buckling test of 420MPa high strength steel single equal angles. International Journal of Structural Stability and Dynamics. 2013,13(2):1250069-1–1250069-23.
[22] Gang Shi, Meng Wang, Yuanqing Wang, Fei Wang. Cyclic Behavior of 460MPa High Strength Structural Steel and Welded Connection under Earthquake Loading. Advances in Structural Engineering. 2013,16(3):451-466.
[23] Yiqi Gao, Hongxia Yu, Gang Shi. Resistance of Flush Endplate Connections under Tension and Shear in Fire. Journal of Constructional Steel Research. 2013,86:195-205.
[24] H. Zhou, K. Liu, G. Shi, Y. Q. Wang, Y. J. Shi, G. De Roeck. Fatigue assessment of a composite railway bridge for high speed trains. Part I: Modeling and fatigue critical details. Journal of Constructional Steel Research. 2013,82(1):234-245.
[25] K. Liu, H. Zhou, G. Shi, Y.Q. Wang, Y.J. Shi, G. De Roeck. Fatigue assessment of a composite railway bridge for high speed trains. Part II: Conditions for which a dynamic analysis is needed. Journal of Constructional Steel Research. 2013,82(1):246-254.
[26] Huiyong Ban, Gang Shi, Yongjiu Shi, Yuanqing Wang. Residual Stress of 460MPa High Strength Steel Welded Box Section: Experimental Investigation and Modeling. Thin-Walled Structures. 2013,64:73-82.
[27] Huiyong Ban, Gang Shi, Yongjiu Shi, Yuanqing Wang. Residual Stress Tests of High Strength Steel Equal Angles. Journal of Structural Engineering. 2012,138(12):1446-1454.
[28] Huiyong Ban, Gang Shi, Yongjiu Shi, Yuanqing Wang. Overall buckling behavior of 460 MPa high strength steel columns: Experimental investigation and design method. Journal of Constructional Steel Research. 2012,74(4):140-150.
[29] Gang Shi, Meng Wang, Yu Bai, Fei Wang, Yongjiu Shi, Yuanqing Wang. Experimental and modeling study of high-strength structural steel under cyclic loading. Engineering Structures. 2012,37(4):1-13.
[30] Gang Shi, Huiyong Ban, Frans S. K. Bijlaard. Tests and numerical study of ultra-high strength steel columns with end restraints. Journal of Constructional Steel Research. 2012,70(3):236-247.
[31] Gang Shi, Hao Fan, Yu Bai, Feng Yuan, Yong-jiu Shi, Yuan-qing. Improved measure of beam-to-column joint rotation in steel frames. Journal of Constructional Steel Research. 2012,70(3):298-307.
[32] Gang Shi, Zhao Liu, Yu Bai, Yongjiu Shi, Yuanqing Wang. In-Plane Bending of Laminated Glass Fin Strengthened Through External Bonding. Advances in Structural Engineering. 2012,15(1):55-64.
[33] Gang Shi, Zhao Liu, Huiyong Ban, Yongjiu Shi, Yuanqing Wang. Tests and Finite Element Analysis on the Local Buckling of 420MPa Steel Equal Angle Columns under Axial Compression. Steel and Composite Structures. 2012,12(1):31-51.
[34] Gang Shi, Yongjiu Shi, Yuanqing Wang, F. S. K. Bijlaard. Monotonic Loading Tests on Semi-Rigid End-Plate Connections with Welded I-Shaped Columns and Beams. Advances in Structural Engineering. 2010,13(2):215-229.
[35] Gang Shi, Yongjiu Shi, Yuanqing Wang, M.A. Bradford. Numerical Simulation of Steel Pretensioned Bolted End-Plate Connections of Different Types and Details. Engineering Structures, 2008,30(10):2677-2686.
[36] Yongjiu Shi, Gang Shi, Yuanqing Wang. Experimental and theoretical analysis of the moment-rotation behaviour of stiffened extended end-plate connections. Journal of Constructional Steel Research. 2007,63(9): 1279-1293.
[37] Gang Shi, Yongjiu Shi, Yuanqing Wang. Behaviour of End-Plate Moment Connections under Earthquake Loading. Engineering Structures, 2007,29(5):703-716.
[38] Gang Shi, Yongjiu Shi, Yuanqing Wang, Shaofu Li, Hong Chen. Finite Element Analysis and Tests on Bolted End-Plate Connections in Steel Portal Frames, Advances in Structural Engineering, 2004,7(3):245-256.
[39] Shi Yongjiu, Wang Meng, Wang Yuanqing, Yang Wen, Shi Gang. Rehabilitation of steel moment connections with cover plates under initial loading, Advances in Structural Engineering, 2011,14(5):789-800.
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