guozaoyang
Address:
HIT Campus G620, the University town of Shenzhen Xili, Shenzhen (518055)
Email:
z-guo(at)foxmail.com
Phone:
N/A
N/A(Fax)
PERSONAL PROFILE
 
Professor Zaoyang Guo's research area is solid mechanics. Our research objective is to bridge the gap between microstructure and macroscopic behavior of composites. We also try to develop some efficient algorithms for parallel computation of solid mechanics problems. Our group is always looking for motivated graduate students and postdocs.
RESEARCH INTEREST
 
2004.03-2006.06||Postdoc/Research Associate, Department of Mechanical Engineering, Northwestern University, Evanston, IL, USA##2006.06-2010.06||Lecturer, Departments of Civil Engineering and Mechanical Engineering, University of Glasgow, Glasgow, UK##||
EDUCATION  
1991.09-1996.07
B.E., Structural Engineering, Tsinghua University, Beijing, China
1996.09-1999.07
M.E., Structural Engineering, Tsinghua University, Beijing, China
2000.06-2004.03
Ph.D., Civil Engineering, Northwestern University, Evanston, IL, USA
RESEARCH & WORK EXPERIENCE  
2004.03-2006.06
Postdoc/Research Associate, Department of Mechanical Engineering, Northwestern University, Evanston, IL, USA
2006.06-2010.06
Lecturer, Departments of Civil Engineering and Mechanical Engineering, University of Glasgow, Glasgow, UK
2010.06-2011.09
Reader, School of Civil Engineering and Geosciences, Newcastle University, Newcastle upon Tyne, UK
2011.11-2014.05
Professor, Department of Engineering Mechanics, Chongqing University, Chongqing, China
2014.05-2017.10
Professor, Institute of Solid Mechanics, Beihang University, Beijing, China
2017.11-Present
Professor, School of Science, Harbin Institute of Technology, Shenzhen, Guangdong, China
PROFESSIONAL QUALIFICATION & ACADEMIC SERVICE
 
RESEARCH PROJECTS
RESEARCH ACHIEVEMENT & AWARDS
PATENT
   
PAPER & BOOK PUBLICATIONS
54. G.Y. Zhang, X.L. Gao* and Z.Y. Guo (2017). A non-classical model for an orthotropic Kirchhoff plate embedded in a viscoelastic medium. Acta Mech, published online.
53. Z.Y. Guo, L. Wang, Y. Chen, L.L. Zheng, Z.J. Yang and L.T. Dong* (2017). A universal model for predicting the effective shear modulus of two-dimensional porous materials. Mechanics of Materials, 110, 59-67.
52. Y. Chen, L.T. Dong, B. Wang, Y.L. Chen, Z.P. Qiu and Z.Y. Guo* (2017). A substructure-based homogenization approach for systems with periodic microstructures of comparable sizes. Composite Structures , 169, 97-104.
51. F. Pan, Y.L. Chen*, Y.L. Liu and Z.Y. Guo (2017). Out-of-plane bending of carbon nanotube films. International Journal Of Solids And Structures, 106, 183-199.
50. Z.Y. Guo, Y. Chen, X.Q. Peng, X.H. Shi, H.T. Li* and Y.L. Chen (2016). Shear stiffness of neo-Hookean materials with spherical voids. Composite Structures, 150, 21-27.
49. Y.K. Gong, X.Q. Peng*, Y. Yao and Z.Y. Guo* (2016). An anisotropic hyperelastic constitutive model for thermoplastic woven composite prepregs. Composites Science And Technology, 128, 17-24.
48. Z.Y. Guo, Y. Chen, Q. Wan, H. Li, X. Shi, S. Tang* and X. Peng* (2016). A hyperelastic constitutive model for chain-structured particle reinforced neo-Hookean composites. Materials & Design, 95, 580-590.
47. H. Park, P. Harrison, Z.Y. Guo, M.G. Lee and W.R. Yu* (2016). Three dimensional constitutive model for shape memory polymers using multiplicative decomposition of the deformation gradient and shape memory strains. Mechanics of Materials, 93, 43- 62.
46. S. Tang*, Y. Li, Y. Yang and Z.Y. Guo* (2015). The effect of mechanical-driven volumetric change on instability patterns of bilayered soft solids. Soft Matter, 11(40), 7911-7919.
45. M.M. Liao, A. Tang, Y.G. Hu* and Z.Y. Guo (2015). Computation of Coefficients of Crack-Tip Asymptotic Fields Using the Weak Form Quadrature Element Method. Journal of Engineering Mechanics, 141(8).
44. Z.Y. Guo, Y. Zhao, Z.H. Chen, M.M. Liao*, Z.L. Li and B. Liu (2015). A Mesh Adaptive Procedure for Large Increment Method. International Journal of Applied Mechanics, 7(4), 1550061 (21 pages).
43. Y.L. Chen*, F. Pan, Z.Y. Guo, B. Liu and J. Zhang (2015). Stiffness threshold of randomly distributed carbon nanotube networks. Journal of the Mechanics and Physics of Solids, 84, 395-423.
42. H. Zhu*, D. Balint and Z.Y. Guo (2014). Theoretical Analysis and Computational Simulation of Advanced Structured Materials. Advances in Condensed Matter Physics, 2014, 1-2.
41. W. Zhou, H.Q. Shen, Z.Y. Guo and B. Peng* (2014). Modeling the pull-in behavior of electrostatically actuated micro beams by an approximate finite element method. International Journal of Numerical Modelling: Electronic Networks devices and fields, 27(1), 89-98.
40. Y.X. Zhang*, F. Li, M. Huang,Y. Xing,X. Gao, B. Li, Z.Y. Guo and Y.M. Guan (2014). Hierarchical NiO moss decorated diatomites via facile and templated method for high performance supercapacitors. Materials Letters, 120, 263-266.
39. Y.X. Zhang*, X.D. Hao, F. Li, Z.P. Diao, Z.Y. Guo and J. Li (2014). pH-Dependent Degradation of Methylene Blue via Rational-Designed MnO2 Nanosheet-Decorated Diatomites. Industrial & Engineering Chemistry Research, 53(17), 6966-6977.
38. H.L. Yin, X.Q. Peng*, T.L. Du and Z.Y. Guo (2014). Draping of plain woven carbon fabrics over a double-curvature mold. Composites Science and Technology, 92, 64-69.
37. S. Tang*, M.S. Greene, X.H. Peng, W.K. Liu and Z.Y. Guo (2014). Chain confinement drives the mechanical properties of nanoporous polymers. Euro Physics Letters, 106(3), 36002.
36. S. Sun, X. Peng* and Z.Y. Guo* (2014). Study on Macroscopic and Microscopic Mechanical Behavior of Magnetorheological Elastomers by Representative Volume Element Approach. Advances in Condensed Matter Physics, 2014.
35. Z.Y. Guo*, X.H. Shi, Y. Chen, H.P. Chen, X.Q. Peng* and P. Harrison (2014). Mechanical modeling of incompressible particle-reinforced neo-Hookean composites based on numerical homogenization. Mechanics of Materials, 70, 1-17.
34. Z.Y. Guo, H.T. Li*, Q. Wan, X. Peng and J. Wen (2014). A Model to Describe the Magnetomechanical Behavior of Martensite in Magnetic Shape Memory Alloy. Advances in Condensed Matter Physics, 2014.
33. Y. Wang, X.Q. Peng* and Z.Y. Guo (2013). Biomechanical analysis of C4-C6 spine segment considering anisotropy of annulus fibrosus. Biomedical Engineering-Biomedizinische Technik, 58(4), 343-351.
32. X.Q. Peng*, Y. Wang, S.Q. Shi and Z.Y. Guo (2013). Biomechanical analysis of lumbar interbody fusion with an anisotropic hyperelastic model for annulus fibrosis. Archive of Applied Mechanics, 83(4), 579-590.
31. X.Q. Peng*, Z.Y. Guo, T.L. Du and W.R. Yu (2013). A simple anisotropic hyperelastic constitutive model for textile fabrics with application to forming simulation. Composites: Part B, 52, 275-281.
30. J. Alsayednoor, P. Harrison* and Z.Y. Guo. (2013). Large strain compressive response of 2-D periodic representative volume element for random foam microstructures. Mechanics of Materials, 66, 7-20.
29. S.H. You and Z.Y. Guo* (2012). Immune algorithm embedded stochastic meshless method for structural reliability. Journal of Mechanical Engineering Science, 226(2), 456-465.
28. B. Peng*, Y. Li, S. Liu, Z.Y. Guo and L. Ding (2012). The roles of crosslinks in the buckling behaviors and load transferring mechanisms of double-walled nanotubes under compression. Computational Material Science, 55, 95-99.
27. E.T. Ooi, Z.J. Yang* and Z.Y. Guo (2012). Dynamic cohesive crack propagation modelling using the scaled boundary finite element method. Fatigue & Fracture of Engineering Materials & Structures, 35, 786-800.
26. Q.H. Jebur, P. Harrrison*, Z.Y. Guo, G. Schubert, X. Ju, and V. Navez (2012). Characterisation and modelling of a transversely isotropic melt-extruded LDPE closed cell foam under uniaxial compression. Journal of Mechanical Engineering Science, 226(9), 2168-2177.
25. P. Harrison*, F. Abdiwi, Z.Y. Guo, P. Potluri and W.R. Yu (2012). Characterising the shear-tension coupling and wrinkling behaviour of woven engineering fabrics. Composites Part A-Applied Science and Manufacturing, 43, 903-914.
24. Z.Y. Guo*, X.H. Shi, X.Q. Peng and F.C. Caner (2012). Fibre-matrix interaction in the human annulus fibrosus. Journal of the Mechanical Behavior of Biomedical Materials, 5(1), 193-205.
23. H.P. Chen*, Z.Y. Guo and X.M. Zhou (2012). Stress singularities of contact problems with a frictional interface in anisotropic composites. Fatigue & Fracture of Engineering Materials & Structures, 35, 718-731.
22. F. Abdiwi, P. Harrison*, I. Koyama, W.R. Yu, A. C. Long, N. Corriea and Z.Y. Guo (2012). Characterising and modelling variability of tow orientation in engineering fabrics and textile composites. Composites Science and Technology, 72, 1034-1041.
21. X.Q. Peng*, Y. Wang, Z.Y. Guo and S.Q. Shi (2011). Numerical validation of a fiber reinforced hyperelastic constitutive model for human intervertebral disc annulus fibrosus. Journal of Mechanics in Medicine and Biology, 11(1), 163-176.
20. B. Peng, L. Ding and Z.Y. Guo* (2011). Design and modeling of carbon nanotube electromechanical switches for logic device application. Journal of Computational and Theoretical Nanoscience, 8(10), 1967-1972.
19. X.Q. Peng*, Z.Y. Guo, Z.U. Rehman and P. Harrison (2010). A simple anisotropic fiber reinforced hyperelastic constitutive model for woven composite fabrics. International Journal of Material Forming, 3, 723-726.
18. X.Q. Peng*, G. Liu and Z.Y. Guo (2010). Finite element contact analysis of a human sagittal knee joint. Journal of Mechanics in Medicine and Biology, 10(2), 225-236.
17. B. Peng*, L. Ding and Z.Y. Guo (2010). Resonant modelling of two types of tunable carbon nanotube electromechanical oscillators. Micro & Nano Letter, 5(6), 365-369.
16. Z.Y. Guo*, S.H. You, X.P. Wan and N. Bicanic (2010). A FEM-based direct method for material reconstruction inverse problem in soft tissue elastography. Computers & Structures, 88(23-24), 1459-1468.
15. Z.Y. Guo* and F.C. Caner (2010). Mechanical behaviour of transversely isotropic porous neo-Hookean solids. International Journal of Applied Mechanics, 2(1), 11-39.
14. Z.Y. Guo*, F.C. Caner, X.Q. Peng and B. Moran (2008). On constitutive modelling of porous neo-Hookean composites. Journal of the Mechanics and Physics of Solids, 56(6), 2338-2357.
13. Z.Y. Guo*, X.Q. Peng and B. Moran (2007). Mechanical response of neo-Hookean fiber reinforced incompressible nonlinearly elastic solids. International Journal of Solids and Structures, 44(6), 1949-1969.
12. Z.Y. Guo*, X.Q. Peng and B. Moran (2007). Large deformation response of a hyperelastic fiber reinforced composite: theoretical model and numerical validation. Composites Part A-Applied Science and Manufacturing, 38(8), 1842-1851.
11. W. Ding, Z.Y. Guo* and R.S. Ruoff* (2007). Effect of cantilever nonlinearity in nanoscale tensile testing. Journal of Applied Physics, 101(3), 034316.
10. F.C. Caner*, Z.Y. Guo, B. Moran, Z.P. Bažant and I. Carol (2007). Hyperelastic anisotropic microplane constitutive model for annulus fibrosus. Journal of Biomechanical Engineering, 129(5), 632-641.
9. S. Lu, Z.Y. Guo, W. Ding and R.S. Ruoff* (2006). Analysis of a MEMS testing stage for tensile loading of nanostructures. Review of Scientific Instruments, 77(5), 056103.
8. S. Lu, Z.Y. Guo, W. Ding, D. Dikin, J. Lee and R.S. Ruoff* (2006). In-situ mechanical testing of templated carbon nanotubes. Review of Scientific Instruments, 77(12), 125101.
7. Z.Y. Guo*, X.Q. Peng and B. Moran (2006). A composites-based hyperelastic constitutive model for soft tissue with application to the human annulus fibrosus. Journal of the Mechanics and Physics of Solids, 54(9), 1952-1971.
6. X.Q. Peng, Z.Y. Guo and B. Moran* (2006). An anisotropic hyperelastic constitutive model with fiber-matrix shear interaction for the human annulus fibrosus. Journal of Applied Mechanics, 73(5), 815-824.
5. Z.Y. Guo* and Z.P. Bažant (2006). Size effect on buckling strength of eccentrically compressed column with fixed or propagating transverse crack. International Journal of Fracture, 142(1-2), 151-162.
4. Z.P. Bažant*, Z.Y. Guo, H.D. Espinosa, Y. Zhu and B. Peng (2005). Epitaxially influenced boundary layer model for size effect in thin metallic films. Journal of Applied Physics, 97(7), 073506.
3. Z.P. Bažant* and Z.Y. Guo (2002). Size effect and asymptotic matching approximations in strain-gradient theories of microscale plasticity. International Journal of Solids and Structures, 39(21-22), 5633-5657.
2. Z.P. Bažant* and Z.Y. Guo (2002). Size effect on strength of floating sea ice under vertical line load. Journal of Engineering Mechanics, 128(3), 254-263.
1. A.J. Aref* and Z.Y. Guo (2001). Framework for finite-element-based large increment method for nonlinear structural problems. Journal of Engineering Mechanics, 127(7), 739-746.
CONFERENCE PAPERS/TALKS
 
TEACHING/SUPERVISING EXPERIENCE
05/14 – 10/17 Professor, Beihang University, Beijing, CHINA
Theory of Elasticity
Introduction to Finite Element Method with Programming

11/11 – 05/14 Professor, Chongqing University, Chongqing, CHINA
Structural Analysis
Nonlinear Continuum Mechanics
Theory of Plates and Shells

09/10 – 09/11 Reader, Newcastle University, Newcastle upon Tyne, UK
Structural Engineering Simulation and Reliability
Matrix structural analysis
Engineering Mechanics of Composites

09/06 – 06/10 Lecturer, University of Glasgow, Glasgow, UK
Engineering Mathematics
Computational Modelling & Approximation in Structural mechanics
Computational Modelling of Nonlinear Problems in Structural Mechanics
Mechanics of Solids & Structures 5

09/00 – 12/03 Teaching Assistant, Northwestern University, IL, USA
Mechanics
Inelasticity, Fracture Mechanics
Structural Stability
Updated:2018-09