Jianjun Zheng

Prof. Jianjun Zheng (jianjunz@Princeton.EDU)

Eng. Quad. E-322


Prof. Zheng in visiting from the Faculty of Civil Engineering and Architecture, Zhejiang University of Technology in Hangzhou, P. R. China.


His research interests include:


(1)Mesostructure and mesomechanics of cement-based materials

(2)Transport properties of porous materials

(3)Durability of concrete materials and structures

(4)Computational mechanics

(5)Solid mechanics


Some of his publications include:


Three monographs and more than 150 papers have been published.

(1)Monographs

(a)J. J. Zheng, C. M. Fan (1994), Mean value theorems in solid mechanics, Changchun: Jilin University Press (in Chinese).

(b)J. J. Zheng (2000), Mesostructure of concrete-stereological analysis and some mechanical implications, Delft: Delft University Press.

(c)J. J. Zheng, X. Y. Liu, X. Z. Zhou (2006), The boundary element method and its applications in structural analysis, Hefei: Anhui Science and Technology Press (in Chinese).

(2)Some recent referred papers

(a)J. J. Zheng, X. Z. Zhou, Percolation of ITZs in concrete and effects of attributing factors, Journal of Materials in Civil Engineering (ASCE) (in press).

(b)J. J. Zheng, X. Z. Zhou, A three-phase composite sphere model for the prediction of chloride diffusion coefficient of concrete, Journal of Materials in Civil Engineering (ASCE) (in press).

(c)J. J. Zheng and X. Z. Zhou, Prediction of the chloride diffusion coefficient of concrete, Materials and Structures (in press).

(d)J. J. Zheng, X. Z. Zhou, A new numerical method for axisymmetrical bending of circular plates with large deflection, Key Engineering Materials (in press).

(e)X. Z. Zhou, J. J. Zheng, A simple spline integral equation method for circular plates with variable thickness, Key Engineering Materials (in press).

(f)J. J. Zheng, C. Q. Li, X. Z. Zhou (2006), An analytical method for prediction of the elastic modulus of concrete, Magazine of Concrete Research, 58(10): 665-673.

(g)X. Z. Zhou, J. J. Zheng (2006), A numerical method for predicting the time to surface cracking of corrosion affected RC structures, Key Engineering Materials, 324-325: 55-58.

(h)Z. M. Wu, S. T. Yang, X. Z. Hu, J. J. Zheng (2006), An analytical model to predict the effective fracture toughness of concrete for three-point bending notched beams, Engineering Fracture Mechanics, 73(15): 2166-2191.

(i)C. Q. Li, R. E. Melchers, J. J. Zheng (2006), Analytical model for corrosion-induced crack width in reinforced concrete structures, ACI Materials Journal, 103(4): 479-487.

(j)J. J. Zheng, S. L. Xu, X. Z. Zhou (2006), Effect of interfacial transition zone on chloride diffusion coefficient, Key Engineering Materials, 302-302: 167-174.

(k)J. J. Zheng, X. Z. Zhou, S. L. Xu (2006), Prediction of crack width of chloride contaminated reinforced concrete structures, Key Engineering Materials, 302-302: 610-617.

(l)D. Y. Kong, H. Yang, S. Wei, J. J. Zheng, J. B. Yang (2006), Hydrolysis-assisted solidification of alumina slurry dispersed in silica sol without de-airing process, Materials Science and Engineering A, 426(1-2): 36-42.

(m)J. J. Zheng, C. Q. Li, X. Z. Zhou (2005), Thickness of interfacial transition zone and cement content profiles around aggregates, Magazine of Concrete Research, 57(7): 397-406.

(n)C. Q. Li, J. J. Zheng (2005), Propagation of reinforcement corrosion in concrete and its effects on structural deterioration, Magazine of Concrete Research, 57(5): 261-271.

(o)J. J. Zheng, C. Q. Li, X. Z. Zhou (2005), Characterization of microstructure of interfacial transition zone in concrete, ACI Materials Journal, 102(4): 265-271.

(p)C. Q. Li, W. Lawanwisut, J. J. Zheng (2005), Time-dependent reliability method to assess the serviceability of corrosion-affected concrete structures, Journal of Structural Engineering (ASCE), 131(11): 1674-1680.

(q)C. Q. Li, W. Lawanwisut, J. J. Zheng (2004), Service life modelling of corrosion affected concrete structures, Journal of Material & Structural Reliability, 2(2): 105-121.

(r)C. Q. Li, J. J. Zheng, X. Z. Zhou, M. McCarthy (2003), A numerical solution for the prediction of the elastic modulus of concrete, Magazine of Concrete Research, 55(6): 497-506.

(s)J. J. Zheng, C. Q. Li, M. Jones (2003), Aggregate distribution with wall effect, Magazine of Concrete Research, 55(3): 257-266.

(t)C. Q. Li, J. J. Zheng, L. Shao (2003), A new solution for the prediction of chloride ingress in cracked concrete, ACI Materials Journal, 101(4): 319-325.

(u)J. J. Zheng, C. Q. Li, L. Y. Zhao (2003), Simulation of two-dimensional aggregate distribution with wall effect, Journal of Materials in Civil Engineering (ASCE), 15(6): 506-510.

(v)J. J. Zheng, C. Q. Li (2002), Three-dimensional simulation of aggregate distribution in concrete with wall effect, ACI Materials Journal, 99(6): 568-575.

© Princeton University 2012