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Pan Peng

Position: Professor
Address: Department of Civil Engineering, Tsinghua University, Beijing 100084, P. R. China
Tel: +86-10-62794729
Fax: +86-10-62788620
E-mail: panpeng@tsinghua.edu.cn

Educational Background

PhD: Oct.2001 –Sep.2004, Disaster Prevention Research Institute, Kyoto University
MA: Sep.1999 –July. 2001, Department of civil engineering, Tsinghua University
BA: Sep.1994 – July.1999, Department of civil engineering, Tsinghua University

Work Experience

2014–present Professor, Department of Civil Engineering, Tsinghua University, China
2008–2014 Associate Professor, Department of Civil Engineering, Tsinghua University, China
2006–2008 Lecturer, Department of Civil Engineering, Tsinghua University, China
2004–2006 JSPS Postdoctoral Research Fellow, Department of Architectural Engineering, Kyoto University, Japan

Teaching Courses
  1. Design of Reinforced Concrete Structures

  2. Design of Modern Wood Structures

  3. Seismic design of building structures

  4. Structural concept design


Research Interests
  1. Earthquake Engineering and Structural Dynamics

  2. Seismic Design and Analysis of Building Structures

  3. High performance and Innovative Structural Systems

  4. Experimental Techniques in Structural Engineering

  5. Seismic resilience evaluation & Seismic resilient Structural Systems

  6. Precast Structural Systems

Research Projects
  1. “Key technologies and demonstrations for applications of high performance building structural steel” National Key Research and Development Program of China 2016.7-2020.6 RMB 15000,000.

  2. “Intelligent base isolation system using an adjustable friction pendulum bearing” National Natural Science Foundation of China (NSFC) 51778342, 2018.1-2021.12 RMB 620,000.

  3. “Research and optimization of high-rise frame-shear wall technology system for precast concrete residence” National Key Research and Development Program of China 2016.7-2020.6 RMB 1,970,000.

  4. “Development of shear walls and dampers for prefabricated buildings” Beijing Science and technology plan 2016.1-2018.12 RMB 958,000.

  5. “Study on technical points of energy dissipation projects” Ministry of housing and urban rural development 2016.3-2016.10 RMB 150,000.

  6. “Case study of typical energy dissipation structure projects” Ministry of housing and urban rural development 2015.3-2015.12 RMB 150,000.

  7. “Seismic Response Control of High-Rise Building Structures by Using Energy Dissipation Devices”, National Natural Science Foundation of China (NSFC), Grant No. 51422809, 2015.1 – 2017.12, PI, RMB 1,000,000.

  8. “Extensible Parallel Computation Techniques for Seismic Disaster Analysis”, Ministry of Education, Grant No. NCET-13-0324, 2013.1 – 2016.12, PI, RMB 500,000.

  9. “Development of Reinforced Concrete Frame Rocking Wall Structural System”, National Natural Science Foundation of China (NSFC), Grant No. 51178250, 2012.1 – 2015.12, PI, RMB 650,000.

  10. “Key Techniques for Collapse Prevention of Rural Building Structures”, Ministry of Science and Technology of China (MOST), Grant No. 2011BAJ08B05, 2011.1 – 2014.12, PI, RMB 1750,000.

  11. “Seismic Disaster Analysis Model for Wenchuan Earthquake”, Tsinghua University Initiative Scientific Research Program, Grant No. 2010Z01001, 2010.7 – 2012.6, PI, RMB 1000,000.

  12. “Development of Rocking Wall System for Retrofit of Concrete Structures”, Ministry of Housing and Urban-Rural Development, Grant No. 2010ZF5, 2009.1 – 2010.12, PI, RMB 200,000.

  13. “Development of Self-Centering Steel Frame Equipped with Energy Dissipation Devices”, National Natural Science Foundation of China (NSFC), Grant No. 50808107, 2009.1 – 2011.12, PI, RMB 220,000.

  14. “Test of Composite Shear Wall Using Concrete Filled Steel Tube as Boundary Element”, Tianjin University, Grant No. 20142000999, 2014 – 2015, PI, RMB 400,000.

  15. “Seismic Response Analysis of Shenyang Shengjing Economic plaza”, Liaoning Jingfeng Co. Ltd., Grant No. 20142001074, 2014 – 2015, PI, RMB 380,000.

  16. “Design and Analysis of LNG Tanks in Tianjin”, China Petrochemical Engineering Co. Ltd., Grant No. 20132000128, 2013 – 2014, PI, RMB 500,000.

  17. “Test of Buckling Restraint Braces”, Kansai Sumitomo Mental Co. Ltd., Grant No. 20113000053, 2010 – 2011, PI, JPY 6,000,000.

  18. “Investigation of Cracks on Orthotropic Steel Bridge Decks and Fatigue Test for Verification of Retrofit Methods”, CCCC Highway Consultants Co. Ltd., Grant No. 20082001686, 2008.1 – 2010.12, PI, RMB 1,020,000.

  19. “Theory and Design Methodology for Damage Control of Structures Enhanced by Fiber Reinforced Polymer ”, National Key Technology R&D Program, Ministry of Science and Technology of China (MOST), Grant No. 2012CB026204, 2012.1 – 2015.12, Co-PI, RMB 2,700,000.

  20. “Design Methodology for Reinforced Concrete Building Structures subjected to Multi-directional Seismic Ground Excitation”, Committee of Science and Technology of Beijing, Grant No. KZ201110005009, 2011.1 – 2013.12, Co-PI, RMB 500,000.

  21. “Investigation and Retrofit Strategy for Engineering Structures Damaged in Wenchuan Earthquake”, China Engineering Academy, Grant No. N/A, 2012.1 – 2015.12, Core Member, RMB 5,000,000.

  22. “High-Fidelity Simulation of Structural Response and Performance-Base Seismic Design for Earthquake-Resilient Super-Tall Buildings”, National Natural Science Foundation of China (NSFC), Grant No. 51261120377, 2013.1 – 2017.12, Core Member, RMB 3,000,000.

  23. “Collapse Mechanism and Control Methodology of High-rise Building Structures Subjected to Mega Earthquakes”, National Natural Science Foundation of China (NSFC), Grant No. 90815025, 2009.1 – 2012.12, Core Member, RMB 2,500,000.

  24. “Collapse Prevention Methodology for Engineering Structures Subjected to Mega earthquakes”, National Key Technology R&D Program, Ministry of Science and Technology of China (MOST), Grant No. 2009BAJ28B01, 2009.1 – 2012.12, Core Member, RMB 5,460,000.

Professional Service
  1. Vice Chair of Water Resources Commission, Chinese Hydraulic Engineering Society

  2. Vice Chair of youth committee for promotion of seismic disaster mitigation technology

  3. Member of committee for seismic control of structures

  4. Member of committee for seismic design of high-rise building structures

  5. Member of committee for comprehensive disaster prevention of green buildings in villages and towns

  6. Member of committee for disaster prevention research center of Ministry of housing and urban rural development

  7. Member of Standardization Working Committee of China Association of survey and design

  8. Member of National Seismic Isolation and Energy Dissipation Expert Department

  9. Associate Editor of Earthquake Engineering & Structural Dynamics

  10. Vice Chair of The 6th Editorial Committee of International Earthquake Engineering

Honors and Awards

2020, Supervisor of Excellent doctoral dissertation of Tsinghua University

2019, Supervisor of Outstanding master graduates of Tsinghua University

2019, Supervisor of Excellent master dissertation of Tsinghua University

2017, Supervisor of Excellent doctoral dissertation of Tsinghua University

2016, Supervisor of Outstanding doctoral graduates of Tsinghua University

2016, Supervisor of Excellent doctoral dissertation of Tsinghua University

2015, Supervisor of Academic Rookie of Tsinghua University

2015, Supervisor of Academic Rookie of Department of Civil Engineering, Tsinghua University

2015, Supervisor of Excellent graduation project for Undergraduates of Tsinghua University

2014, Supervisor of Academic Rookie of Department of Civil Engineering, Tsinghua University

2019, First prize of the Huaxia award of science and technology progress, (Rank 2nd), (honored project: Key technology and application of design and construction of braided complex topology spatial latticed shell )

2019, National special support plan for high level talents

2018, Youth Science and technology innovation leader

2018, First Award of the Scientific and Technological Progress of the State. (Rank 8th), (honored project: Engineering structure innovation team of Tsinghua University)

2017, Second Award of Beijing Science and Technology. (Rank 3rd), (honored project: Research and application of the complete set of technology for the retrofit of existing buildings)

2016, Second Award of the Scientific and Technological Progress of the State. (Rank 2nd), (honored project: Key technology and application of on line hybrid test for large complex structure)

2015, the first price of the award of earthquake disaster mitigation, China seismological Bureau (Rank 2nd), (honored project: development of substructuring online hybrid testing)

2014, Distinguished Young Scientist of Natural Science Foundation of China (NSFC), (honored project: seismic control of high-rise buildings)

2013, Second prize of the Huaxia award of science and technology progress, (Rank 4th) (honored project: development and application of buckling restraint braces)

Academic Achievement

Monographs and Textbooks:

  1. Pan, P., Ye, L., Qian, J., Deng, K., He, Y. (2014). Seismic Design of Building Structures Equipped with Energy Dissipation Devices. Beijing: Tsinghua University Press. (in Chinese)

  2. Pan, P., Wang, T., Nakashima, M. (2013). Development of Online Hybrid Test – Theory and Applications. Beijing: Tsinghua University Press.

  3. Pan, P., Zhang, Y., (2017). Theory and method of seismic design of building structure. Beijing: Science Press.


Publications in Archived International Journals:

  1.  Zeng Y, Pan P, Zhang D, et al. Experimental study of isolation in the backfill zone of the foundation pit (IBF) method to reduce ground-borne vibration in buildings [J]. Engineering Structures, 2020, 202:109740

  2. Wang H, Marino E M, Pan P. Design, testing and finite element analysis of an improved precast prestressed beam-to-column joint [J]. Engineering Structures, 2019, 199: 109661.

  3. Deng K, Pan P, Shen S, et al. Experimental study of FRP-reinforced slotted RC shear walls under cyclic loading[J]. Journal of Composites for Construction, 2018, 22(4): 04018017.

  4. Zhang D, Pan P, Zeng Y, et al. A novel robust optimum control algorithm and its application to semi-active controlled base-isolated structures [J]. Bulletin of Earthquake Engineering, 2020, 18(5): 2431-2460.

  5. Shen S D, Pan P, Miao Q S, et al. Test and analysis of reinforced concrete (RC) precast shear wall assembled using steel shear key (SSK)[J]. Earthquake Engineering & Structural Dynamics, 2019, 48(14): 1595-1612.

  6. Shen S D, Cui Y, Pan P, et al. Development of prefabricated composite energy-dissipating slotted shear wall[J]. Engineering Structures, 2019, 199: 109577.

  7. Zhang D, Pan P, Zeng Y. An optimum model reference adaptive control algorithm for smart base-isolated structures [J]. Bulletin of Earthquake Engineering, 2018, 16(11): 5647-5670.

  8. Peng P, Dongbin Z, Yi Z, et al. Development of a tunable friction pendulum system for semi‐active control of building structures under earthquake ground motions[J]. Earthquake Engineering & Structural Dynamics, 2018, 47(8): 1706-1721.

  9. Sun J, Pan P, Wang H. Development and experimental validation of an assembled steel double-stage yield buckling restrained brace [J]. Journal of Constructional Steel Research, 2018, 145: 330-340.

  10. Wang H, Marino E M, Pan P, et al. Experimental study of a novel precast prestressed reinforced concrete beam-to-column joint[J]. Engineering Structures, 2018, 156: 68-81.

  11. Pan P, Zhang D B, Nie X, et al. Development of piezoelectric energy-harvesting tuned mass damper [J]. Science China Technological Sciences, 2017, 60(3): 467-478.

  12. Deng K, Pan P, Wang H, et al. Experimental study on slotted RC wall with steel energy dissipation links for seismic protection of buildings [J]. Engineering Structures, 2017, 145: 1-11.

  13. Wang H, Nie X, Pan P. Development of a self-centering buckling restrained brace using cross-anchored pre-stressed steel strands [J]. Journal of Constructional Steel Research, 2017, 138: 621-632.

  14. Wu S, Pan P, Nie X, et al. Experimental investigation on reparability of an infilled rocking wall frame structure [J]. Earthquake Engineering & Structural Dynamics, 2017, 46(15): 2777-2792.

  15. Shoujun W, Peng P, Dongbin Z. Higher mode effects in frame pin‐supported wall structure by using a distributed parameter model [J]. Earthquake Engineering & Structural Dynamics, 2016, 45(14): 2371-2387.

  16. Dongbin Z, Xin N, Peng P, et al. Experimental study and finite element analysis of a buckling-restrained brace consisting of three steel tubes with slotted holes in the middle tube [J]. Journal of Constructional Steel Research, 2016, 124: 1-11.

  17. Deng K, Pan P, Wu S. Experimental study on a self‐centering coupling beam eliminating the beam elongation effect [J]. The Structural Design of Tall and Special Buildings, 2016, 25(6): 265-277.

  18. Deng K, Pan P, Nie X, et al. Study of GFRP steel buckling restraint braces [J]. Journal of Composites for Construction, 2015, 19(6): 04015009.

  19. Pan P, Wu S, Nie X. A distributed parameter model of a frame pin‐supported wall structure[J]. Earthquake Engineering & Structural Dynamics, 2015, 44(10): 1643-1659.

  20. Deng K, Pan P, Su Y, et al. Shape optimization of U-shaped damper for improving its bi-directional performance under cyclic loading[J]. Engineering Structures, 2015, 93: 27-35.

  21. Deng K, Pan P, Li W, et al. Development of a buckling restrained shear panel damper [J]. Journal of Constructional Steel Research, 2015, 106: 311-321.

  22. Deng K, Pan P, Sun J, et al. Shape optimization design of steel shear panel dampers [J]. Journal of Constructional Steel Research, 2014, 99: 187-193.

  23. Pan P, Zhao G, Lu X, et al. Force–displacement mixed control for collapse tests of multistory buildings using quasi‐static loading systems [J]. Earthquake engineering & structural dynamics, 2014, 43(2): 287-300.

  24. Shi W, Pan P, Ye L, et al. Skyline‐based ground motion selection method for nonlinear time history analysis of building structures [J]. Earthquake engineering & structural dynamics, 2013, 42(9): 1361-1373.

  25. Pan P, Tomofuji H, Wang T, et al. Development of peer‐to‐peer (P2P) internet online hybrid test system[J]. Earthquake engineering & structural dynamics, 2006, 35(7): 867-890.

  26. Pan P, Nakashima M, Tomofuji H. Online test using displacement–force mixed control[J]. Earthquake engineering & structural dynamics, 2005, 34(8): 869-888.


Publications in Archived Domestic Journals (in Chinese):

  1. Liu Liang, Pan Peng et.al Development and application of friction force measurement device for compression-shear tests [J]. Journal of building structures, 2019, 40(6): 133-139.

  2. Pan Peng, Wang Haishen, Guo Haishan, et.al Experimental study of seismic performance of unbonded post-tensioned pre-stressed beam-to-column dry connections [J]. Journal of building structures, 2018 (10): 1-6.

  3. Su Yukun, Shen Shaodong, Gong Runhua, et.al. Experimental study on floor slabs in prefabricated shear wall structures using dry connections [J]. Engineering Mechanics, 2019, 1-12.

  4. Wang Haishen, Pan Peng, et.al.Hysteretic behavior of self-centering buckling restrained brace (SCBRB) using three steel tubes [J].Engineering Mechanics ,2017,34(11):59-65.

  5. Shen Shaodong, Li Gang, Pan Peng. Comparison on seismic response between structures using buckling restrained braces and viscous dampers [J]. Journal of Building Structures, 2016, 37(09):33-42.

  6. Wu Shoujun, Pan Peng, Zhang Xin. Characteristics of frame rocking wall structure and its application in aseismic retrofit [J]. Journal of Building Structures, 2016, 33(06):54-62.

  7. Deng Kailai, Pan Peng, Zhang Dongin, Li Wei, Li Yixin. Experimental study of slotted reinforced concrete slab at shear wall-slab interface [J]. Journal of Building Structures, 2016,37(04):26-31.

  8. Wu Shoujun, Pan Peng. Seismic performance evaluation of rocking infilled wall-frame structure [J]. Journal of Building Structures ,2015,36(10):81-87.

  9. Deng Kailai, Pan Peng, Su Yukun, et al. Experimental study on lateral performance of slotted U-shape steel damper [J]. Journal of vibration and shock, 2015(12):157-163.

  10. Su Yukun, Pan Peng, Deng Kailai, Miao Qisong, Li Wenfeng. Application of pseudo-dynamic substructure tests to old residential buildings retrofitted by exterior strengthening method [J]. Journal of Building Structures, 2014, 35(02):8-14.


Invention Patents:

  1. Prefabricated concrete slotted shear wall  ZL 2016 1 0916466.5

  2. Sliding bearing of friction pendulum  ZL 2016 1 0947485.4

  3. Three dimensional isolation bearing  ZL 2016 1 0948733.7

  4. Sliding bearing of friction pendulum with adjustable friction  ZL 2016 1 0875941.9

  5. A double sliding friction damper  ZL 2015 1 0580495.4

  6. Self-centering buckling restrained brace  ZL 2015 1 0898241.7

  7. A shear force measuring device and method  ZL 2014 1 0707116.9

  8. A kind of rocking infilled wall frame structure with high performance for earthquake ZL 2015 1 0061644.6

  9. Deformation and energy dissipation brace ZL 2014 1 0190086.9

  10. A two-way rolling pendulum isolation bearing  ZL 2013 1 0412692.6

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