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Zhong Hongzhi
Position:Professor
Address:Department of Civil Engineering
Tel:+86-10-62781891
E-mail: hzz@tsinghua.edu.cn
Educational Background
BA: Aug. 1981 – July.1985, Department of Applied Mechanics, Changsha Institute of Technology
MSc: Aug. 1985 – Oct. 1987, Beijing Institute of System Engineering,
D.Phil.: Oct.1987 – Oct.1990, Deparrtment of Engineering Science, University of Oxford
Work Experience
Dec. 2014 – Present Professor, Department of Civil Engineering, Tsinghua University
Jul. 1996 – Dec. 2014, Associate Professor, Department of Civil Engineering, Tsinghua University
Apr. 1994 – July. 1996, Lecturer, Department of Civil Engineering, Tsinghua University
Oct. 1990 – Oct. 1993, Postdoctor, Rolls-Royce Solid Mechanics Center, University of Oxford
Teaching Courses
1. Structural Mechanics II (English)
2. Finite Element Analysis and Fundamentals of Variational Principles
3. Introduction to Computational Structural Mechanics
4. Quadrature Element Methods and Their Applications
Research Interests
1. Development and Application of the Weak form Quadrature Element Method
2. Nonlinear analysis of Engineering Structures
3. Goal-oriented Error Estimation in Finite Element Analysis
Research Projects
The development and application of quadrature element method(2008.1~2010.12), (National Natural Science Foundation of China) NNSF
The development of nonlinear quadrature elemtns for plates and shells and their application in seismic analysis of shear walls(2012.1~2015.12), NNSF
Stability analysis of reticulated shells using the quadrature element method(2014.1~2017.12), NNSF
Professional Service
Editorial Member, International Journal of Advanced Structural Engineering
Honors and Awards
2001, the national teaching achievements, first prize, (Rank 4th)
2001, Beijing teaching achievements, first prize, ranked 4th
1997, Baogang Excellent teacher Award
Academic Achievement
1. Shuai Yuan, Hongzhi Zhong, A weak form quadrature element formulation for coupled analysis of unsaturated soils, Computers and Geotechnics, 2016. 76(June): 1-11
2. Mengwu Guo, Hongzhi Zhong, Kuan You, A second-order perturbation method for fuzzy eigenvalue problems, Engineering Computations, 2016, 33(2)
3. Li Wang, Ludovic Chamoin, Pierre Ladevèze, Hongzhi Zhong, Computable upper and lower bounds on eigenfrequencies, Computer Methods in Applied Mechanics and Engineering, 2016, April, 302:27–43
4. Run Zhang, Hongzhi Zhong, A quadrature element formulation of an energy-momentum conserving algorithm for dynamic analysis of geometrically exact beams, Computers & Structures, 2016, 165:96-106
5. Shuai Yuan, Hongzhi Zhong, Three dimensional analysis of unconfined seepage in earth dams by the weak form quadrature element method, Journal of Hydrology, 2016, February, 533:403-411
6. Minmao Liao, Hongzhi Zhong, Application of a Weak Form Quadrature Element Method to Nonlinear Free Vibrations of Thin Rectangular Plates, International Journal of Structural Stability and Dynamics 2016,16(01):(doi: 10.1142 / S0219455416400010)
7. Minmao Liao, Hongzhi Zhong, A weak form quadrature element method for nonlinear free vibrations of Timoshenko beams, Engineering Computations, 2016 Vol. 33 Iss: 1, pp.274 – 287
8. Li Wang, Hongzhi Zhong, Strict upper and lower bounds of stress intensity factors at 2D elastic notches based on constitutive relation error estimation, Computational Mechanics, 2015, 56(5):739-752
9. Mengwu Guo, Hongzhi Zhong, Goal-oriented error estimation for beams on elastic foundation with double shear effect, Applied Mathematical Modelling, 2015, 39: 4699–4714
10. Li Wang, Mengwu Guo, Hongzhi Zhong, Strict upper and lower bounds of quantities for beams on elastic foundation by dual analysis, Engineering Computation, 2015, 32(6):1619-1642
11. Run Zhang, Hongzhi Zhong, Weak form quadrature element analysis of geometrically exact shells, International Journal of Non-Linear Mechanics, 2015, 71(May): 63–71
12. Li Wang, Hongzhi Zhong, A unified approach to strict upper and lower bounds of quantities in linear elasticity based on constitutive relation error estimation, Computer Methods in Applied Mechanics and Engineering, 2015, April 1, 286:332–353,
13. Li Wang, Hongzhi Zhong, Stable linear traction-based equilibrium elements for elastostatics: direct access to linear statically admissible stresses and quadratic kinematically admissible displacements for dual analysis, International Journal for Numerical Methods in Engineering, 2015, March, 101(12): 887–923
14. Shuai Yuan, Hongzhi Zhong, Consolidation analysis of non-homogeneous soil by the weak form quadrature element method, Computers and Geotechnics, 2014, 62(October) : 1-10
15. Li Wang, Hongzhi Zhong, A traction-based equilibrium finite element free from spurious kinematic modes for linear elasticity problems, International Journal for Numerical Methods in Engineering, 2014; 99:763–788
16. Hongzhi Zhong, Run Zhang, Naijia Xiao, A quaternion-based weak form quadrature element formulation for spatial geometrically exact beams, Archive of Applied Mechanics, 2014, 84(12): 1825-1840
17. Run Zhang, Hongzhi Zhong, Weak form quadrature element analysis of spatial geometrically exact shear-rigid beams, Finite Elements in Analysis and Design, 2014, 87(15): 22–31
18. Run Zhang, Hongzhi Zhong, Weak form quadrature element analysis of planar slender beams based on geometrically exact beam theory, Archive of Applied Mechanics, 2013,83(9): 1309-1325
19. Zhiqiang Shen, Hongzhi Zhong, Static and Vibrational Analysis of Partially Composite Beams Using the Weak Form Quadrature Element Method, Mathematical Problems in Engineering, Volume 2012, Article ID 974023, 23 pages
20. Hongzhi Zhong, Zhiguang Yue, Analysis of thin plates by the weak form quadrature element method, SCIENCE CHINA Physics, Mechanics & Astronomy, 2012, 55(5): 861–871
21. Naijia Xiao, Hongzhi Zhong, Nonlinear Quadrature Element Analysis of Planar Frames Based on Geometrically Exact Beam Theory, International Journal of Non-Linear Mechanics, 2012, 47(5): 481–488
22. Rui He, Hongzhi Zhong, Large deflection elasto-plastic analysis of frames using the weak-form quadrature element method, Finite Elements in Analysis and Design, 2012, 50(1): 125-133
23. Hongzhi Zhong,Chunlin Pan and Hao Yu, Buckling analysis of shear deformable plates using the quadrature element method, Applied Mathematical Modelling, 2011,35(10):5059–5074
24. Hongzhi Zhong,Run Zhang And Hao Yu, Buckling Analysis of Planar Frameworks Using the Quadrature Element Method, International Journal of Structural Stability and Dynamics, 2011, 11(2):363-378
25. Hongzhi Zhong, Ming Gao, Quadrature element analysis of planar frameworks, Archive of Applied Mechanics, 2010, 80 (12) :1391-1405.
26. Hongzhi Zhong, Yu Wang. Weak form quadrature element analysis of Bickford Beams, European Journal of Mechanics A/Solids, 2010, 29 (5) : 851-858.
27. Hongzhi Zhong, Tian Yu. A weak form quadrature element method for plane elasticityproblems, Applied Mathematical Modelling, 2009, 33(10): 3801-3814.
28. Yihua Mo, Li Ou, Hongzhi Zhong. Vibration Analysis of Timoshenko Beams on a Nonlinear Elastic Foundation. Tsinghua Science and Technology, 2009, 14(3): 322-326.
29. Minmao Liao, Hongzhi Zhong, Nonlinear vibration analysis of Timoshenko beams, Chaos, Solitons and Fractals, 2008, 36(5):1267-1272.
30. Hongzhi Zhong, Minmao Liao, Higher-order nonlinear analysis of Timoshenko beams by the spline-based differential quadrature method. Shock and Vibration, 2007, 14(6):407-416
31. Hongzhi Zhong,Chao Gu, Buckling of symmetric cross-ply laminates under a linearly varying load,Composite Structures, 2007, 80(1):42-48
32. Hongzhi Zhong, Tian Yu. Flexural vibration analysis of an eccentric annular Mindlin plate,Archive of Applied Mechanics, 2007, 77(4):185-195
33. Hongzhi Zhong, Mengyu Lan,Solution of nonlinear initial value Duffing equations by spline-based differential quadrature method, Journal fo Sound and vibration, 2006, 296(4/5): 908-918.
34. Hongzhi Zhong, Chao Gu, Buckling analysis of Reissner-Mindlin plates under linerlyvarying load, Journal of Engineering Mechanics, ASCE, 2006, May, 132(5):578-581.
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