Position：Professor
Address：Department of Civil Engineering, Tsinghua University,
Beijing, 100084, China
Tel：8610-62797422
Fax：8610-62797422
E-mail: junz@tsinghua.edu.cn

BA: Sep.1981 – July.1985, Building Materials, Harbin Institute of Technology
MA: Sep.1985 – Dec. 1988, Structural Engineering, Beijing Building Construction Research Institute
PhD: Feb.1995 – April 1998, Structural Engineering,, Technical University of Denmark

2004 – present; Professor, Department of Civil Engineering, Tsinghua University
2001 –2003; Associate Professor, Department of Civil Engineering, Tsinghua University, China
1998–2000; Post-doc. Research Fellow, Department of Civil and Environmental Engineering, University of Michigan, USA
1993–1995; Research Fellow, Department of Structural Engineering, Technical University of Denmark, Denmark
1991–1992; Civil Engineer, Director of the Building Materials Division, Beijing Building Construction Research Institute, China
1988–1991; Civil Engineer, Beijing Building Construction Research Institute, China

1. Under Graduate Level: Building and Construction Materials
2. Graduate Level: Fracture Mechanics of Cementitious Composites

1. Fracture Mechanics of Cement Based Materials
2. Modern High Performance Concrete
3. High Performance Fiber Reinforced Cementitious Composites

1. Matching Design of Strength and Ductility of Fiber reinforced Cementitious Composites. Project of National Natural Science Foundation of China (NSFC), 2013-2016, Principal Investigator.
2. Degradation mechanisms of concrete under dry-wet cycles. Project of National Natural Science Foundation of China (NSFC), 2012-2015, Principal Investigator.
3. Integrative studies on autogenous and drying shrinkages of concrete, Project of National Natural Science Foundation of China (NSFC), 2010-2012, Principal Investigator.
4. Degradation mechanisms of modern concrete under coupled actions of mechanics and chemical reactions, Project of National Basic Research Program (973), 2009–2013.
5. Design and mechanism studies on high ductile and low shrinkage fiber reinforced cementitious composites. Project of National Natural Science Foundation of China (NSFC), 2009-2011, Principal Investigator.

Member, International Society of Fracture Mechanics of Concrete and Concrete Structures
Associate Chair, Chinese Cement and Concrete Products Committee，The Chinese Ceramic Society
Chair, High Performance Concrete Committee, The Chinese Ceramic Society
Associate Chair, Fiber Reinforced Concrete Committee, Chinese Civil Engineering Society
Associate Chair, Fracture Mechanics of Concrete Committee, Chinese Hydraulic Engineering Society

2015, the second prize of the Award of Nature Science, Ministry of China Education, Rank 1st, ( honored project: xxx)
2012, the second prize of the Award of Nature Science, Ministry of China Education, Rank 2nd, ( honored project: xxx)
2006, the second prize of teaching achievements, Tsinghua University, Rank 2nd.
2004, the second prize of teaching books, Tsinghua University, Rank 5th.
1992, the second prize of advances in science and technology, Beijing Building Construction Group Company, Rank 1st
1990, the third prize of advances in science and technology of Beijing city, Rank 1st.

Books：
1. Zhang Jun，Yan Peiyu，Qin Weizhu，Building Materials，Tsinghua University Press, 2008,6.
Refereed Journal Papers：
1. Zhang, J. and Stang, H., “Application of stress crack width relationship in predicting the flexural behavior of fiber reinforced concrete.” Cement and Concrete Research，Vol. 28, No. 3, pp.439-452, 1998.
2. Zhang, J. and Stang, H., “Fatigue performance in flexure of fiber reinforced concrete.” ACI Material Journal, Vol. 95, No. 1, pp.58-67, 1998.
3. Zhang J., Stang, H. and Li, V.C., “Fatigue life prediction of plain and fiber reinforced concrete under flexural load.” International Journal of Fatigue, Vol. 21, No. 10, pp.1033-1049, 1999.
4. Zhang, J., Stang, H. and Li, V. C., “Experimental study on crack bridging of FRC under uniaxial fatigue tension.” ASCE Journal of Materials in Civil Engineering, Vol. 12, No.1, pp. 66-73, 2000.
5. Zhang J. and Li, V.C., “Influence of Reinforcing Bars on The Shrinkage Stress in Concrete Slab.” ASCE Journal of Engineering Mechanics, Vol. 126, No. 12, pp1297-1300, 2000.
6. Zhang J., Li, V.C., “Influence of Fibers on Drying Shrinkage of Fiber Reinforced Cementitious Composite.” ASCE Journal of Engineering Mechanics, Vol. 127, No.1, pp.37-44, 2001.
7. Zhang, J., Stang, H. and Li, V.C., “Crack bridging model for fiber reinforced concrete under fatigue tension.” International Journal of Fatigue, Vol. 23, No. 8, pp655-670, 2001.
8. Zhang J., Li, V.C., “Influence of Supporting Base Characteristics on the Shrinkage Induced Stresses in Concrete Pavements”. ASCE Journal of Transportation Engineering, Vol. 127, Issue 6, pp. 455-462, 2001.
9. Zhang J. and Li, V.C., “Size-effect on fatigue in bending of concrete.” ASCE Journal of Materials in Civil Engineering, Vol.13, No.6, pp.446-453, 2001.
10. Zhang J., Li, V.C. Nowak, N.S. and Wang S., “Introducing Ductile Strip for Durability Enhancement of Concrete Slabs.” ASCE Journal of Materials in Civil Engineering, Vol.14, No.3, pp. 253-261, 2002.
11. Zhang J., Li, V.C., “Monotonic and Fatigue Performance of Engineered Fiber Reinforced Cementitious Composite in Overlay System.” Cement and Concrete Research. Vol.32, No. 3, pp.415-423, 2002.
12. Zhang, J., Li, V.C., “Effect of Inclination Angle on Fiber Rupture Load in Fiber Reinforced Cementitious Composites.” Composite Science and Technology, Vol. 62, No. 6, pp.775-781, 2002.
13. Zhang J., “Modeling of the Influence of Fibers on Creep of Fiber Reinforced Cementitious.” Composites Science and Technology, Vol 63, No.13, pp1877-1884, 2003.
14. Zhang, J. and Li, V.C., “Simulation of mode I crack propagation in fiber reinforced concrete by fracture mechanics.” Cement and Concrete Research, Vol.34, pp.333-339, 2004.
15. Zhang J., Leng, B., “Analysis of shrinkage induced stresses in concrete pavements.” Magazine of Concrete Research, Vol.56, No.10, pp.585-595, 2004.
16. Zhang J., Liu, Q. and Wang L., “Effect of coarse aggregate size on stress crack opening relationship in normal and high strength concrete.” Journal of Materials Science and Technology, Vol.21, No.5, pp691-700, 2005.
17. Zhang J., Christopher K.Y. Leung and Yin Nee Cheung, “Flexural Performance of Layered ECC-Concrete Composite Beam.” Composite Science and Technology, Vol.66, 1501-1512, 2006.
18. Zhang J., “Effect of Tensile Softening Relation on Size Effect of Concrete in Bending.” Magazine of Concrete Research, Vol.58, No.9, pp.609-618, 2006.
19. Christopher K.Y. Leung and Cheung，Y. N., and Zhang J., “Fatigue Enhancement of Concrete Beam with ECC Layer.” Cement and Concrete Research, Vol.37, 734-750, 2007.
20. Zhang, J., Qi, K. and Huang, Y., “Calculation of Moisture Distribution in Early Age Concrete.” ASCE Journal of Engineering Mechanics, Vol.135, No.8, pp:871-880, 2009.
21. Zhang, J., Gong, C X., Zhang, M H. and Guo, Z L., “Engineered Cementitious Composite with Characteristic of Low Drying Shrinkage”, Cement and Concrete Research, Vol.39, No.4, pp.303-312, 2009.
22. Zhang, J., Gong, C.X., Guo, Z.L. and Ju, X.C., “Mechanical Performance of Low Shrinkage Engineered Cementitious Composite in Tension and Compression.” Journal of Composite Materials, Vol.43, No.22, pp.2571-2584, 2009.
23. Zhang, J., Hou, D.W. and Sun, W., “Experimental study on the relationship between shrinkage and interior humidity of concrete at early age”, Magazine of Concrete Research, Vol.62, No.3, pp.191-199, 2010.
24. Zhang, J., Leung, C.K.Y. and Xu, S.L., “Evaluation of Fracture Parameters of Concrete from Bending Test.” Materials and Structures, Vol.43, No.6, pp.857-874, 2010.
25. Zhang J., Hou D.W. and Chen H.Y., “Experimental and Theoretical Studies on Shrinkage of Concrete at Early-Ages.” ASCE Journal of Materials in Civil Engineering, Vol.23, No.3, pp.312-320, 2011.
26. Zhang, J., Hou, D.W., Gao, Y. and Sun, W., “Determination of moisture diffusion coefficient of concrete at early-age from interior humidity measurements.” Drying Technology, Vol.29, No.6, pp.689-696, 2011.
27. Zhang, J., and Ju, X.C., “Investigation on stress-crack opening relationship of engineered cementitious composites using inverse approach.” Cement and Concrete Research, Vol.41, No.8, pp.903-912, 2011.
28. Zhang, J., Leung, C.K.Y. and Gao, Y., “Simulation of Crack Propagation of Fiber Reinforced Cementitious Composite under Tension.” Engineering Fracture Mechanics, Vol.78, No.12, pp.2439-2454, 2011.
29. Zhang, J., Hou, D. and Han, Y., “Micromechanical modeling on autogenous and drying shrinkages of concrete.” Construction and Building Materials, Vol.29, No.3, pp.230-240, 2012.
30. Zhang, J., Gao, Y., Han, Y. and Sun, W., “Shrinkage and Interior Humidity of Concrete under Dry-Wet Cycles.”, Drying Technology, Vol.30, No.6, pp.583-596, 2012.
31. Zhang, J., Gao, Y. and Han, Y.D., “Interior Humidity of Concrete under Dry-Wet Cycles.” ASCE Journal of Materials in Civil Engineering, Vol.24, No.3, pp.289-298, 2012.
32. Zhang, J., Huang, Y., Qi, K. and Gao, Y., “The interior relative humidity of normal and high strength concrete at early age.” ASCE Journal of Materials in Civil Engineering, Vol.24, No.6, pp.615-622, 2012.
33. Zhang, J., Hou, D. and Gao, Y., “Integrative studies on autogenous and drying shrinkages of concrete at early-age.” Advances in Structural Engineering, Vol.15, No.7, pp.1041-1051, 2012.
34. Zhao, Z.F., Zhang, J., Zhou, H., Shah, S.P. and Zhao, Z.G., “Two methods for determining softening relationship of dam concrete and wet-screened concrete.” Advances in Structural Engineering, Vol.15, No.7, pp.1125-1138, 2012.
35. Gao, Y., Zhang, J. and Han, P., “Determination of Stress Relaxation Parameters of Concrete in Tension at Early-Age by Ring Test.” Construction and Building Materials, Vol.41, No.1, pp.152-164, 2013.
36. Zhang, J., Wang, Z. and Ju, X., “Application of Ductile Fiber Reinforced Cementitious Composite in Jointless Concrete Pavements.” Composites Part B, Vol.50, July, pp.224-231, 2013.
37. Zhang, J., Han, Y., Gao, Y. and Luosun Y., Integrative Study on the Effect of Internal Curing on Autogenous and Drying Shrinkage of High Strength Concrete. Drying Technology, Vol.31, No.5, pp.565-575, 2013.
38. Zhang, J., Gao, Y. and Wang, Z., Evaluation of Shrinkage Induced Cracking Performance of Low Shrinkage Engineered Cementitious Composite by Ring Tests. Composites Part B, Vol.52，pp.21-29, 2013.
39. Zhang, J. Hou, D. and Gao, Y., Calculation of Shrinkage Stress in Early-Age Concrete Pavements: Part I: Shrinkage Strain. ASCE Journal of Transportation Engineering, Vol. 139, No. 10, October 2013: 961-970.
40. Zhang, J., Hou, D. and Gao, Y., Calculation of Shrinkage Stress in Early-Age Concrete Pavements: Part II: Shrinkage Stress. ASCE Journal of Transportation Engineering, Vol. 139, No. 10, October 2013: 971-980.
41. Zhang, J. Han, Y. and Han, J., Using Cement Hydration Degree Based Model to Predict Mechanical Properties of Precast Concrete. Magazine of Concrete Research, Vol.66, No.12, pp.603-617, 2014.
42. Gao, Y., Zhang, J. and Luosun, Y., Shrinkage Stress in Concrete under Dry-Wet Cycles---An Example with Concrete Column. Mechanics of Time-Dependent Materials, Volume 18, No.1, pp 229-252, 2014.
43. Zhang J., Han, Y., Gao, Y., Experimental Study on the Effects of Aggregates on Interior Humidity, Autogenous and Drying Shrinkage of Concrete. ASCE Journal of Materials in Civil Engineering, Vol.26, No.1, pp.184-189, 2014.
44. Han, Y. Zhang, J., Luosun, Y. and Hao, T., Effect of internal curing on internal relative humidity and shrinkage of high strength concrete slabs. Construction and Building Materials, Vol.61, pp.41-49, 2014.
45. Zhang, J. Wang, Z., Ju, X. and Shi, S., Simulation of Flexural Performance of Layered ECC-Concrete Composite Beam with Fracture Mechanics Model. Engineering Fracture Mechanics, Vol.131, pp.419-438, 2014.
46. Zhang, J., Han, Y. and Luosun, Y., Combination Effects of Internal Curing and Permanent Formwork on Shrinkage of High Strength Concrete. Journal of Advanced Concrete Technology, Vol. 12, No. 11, pp. 456-467, 2014.
47. Wang, Z., Zhang, J., Wang, J. and Shi S., Tensile Performance of Polyvinyl Alcohol-Steel Hybrid Fiber Reinforced Cementitious Composite with Impact of Water to Binder Ratio. Journal of Composites, Vol.49, No.18, pp.2169-2186, 2015.
48. Zhang, J., Wang, J., Han, Y., Simulation of Moisture Field of Concrete with Pre-soaked Lightweight Aggregate Addition, Construction and Building Materials, Vol.96, pp.599-614, 2015.
49. Zhang, J., Luosun, Y., Wang, J. and Han, Y., Shrinkage of High Strength Calcium Sulfoaluminate Cement Concrete with Impact of Pre-soaked Lightweight Aggregate Internal Curing. Magazine of Concrete Research, Vol.72, No.22, pp.1204-1213, 2015.
50. Zhang, J. Wang, J. and Gao, Y., Moisture Movement in Early Ages Concrete under Cement Hydration and Environmental Drying, Magazine of Concrete Research, Vol.68, No.8, pp.391-408, April, 2016.
Patents：
1. Zhang Jun, Wang Zhenbo. A fiber reinforced cementitious composite with characteristics of high ductility and low drying shrinkage. Chinese invention patent: ZL201310169093.6.
2. Zhang Jun, Chen Qiesun, Chen Chongze, Wang Zhenbo. A construction method for joint-less concrete pavements. Chinese invention patent: ZL201310168217.9.