Jun Li

Jun Li obtained his PHD degree in Structural Engineering from the University of Western Australia, and worked two years in the University of Adelaide before joining the University of Technology Sydney.

Jun Li is now looking for PhD students with background in structural analysis/dynamics. Full scholarship will be provided to the suitable candidates.

ACADEMIC POSITIONS

• Research Associate
  University of Adelaide, Adelaide, Australia

DEGREES

• PhD (Structural Engineering)
  University of Western Australia, Perth, Australia
  
• Bachelor (Civil Engineering)
  Central South University, Changsha, China
  

AVAILABILITY

• Masters Research or PhD student supervision

Publication

1. S. Yuan, H. Hao, Z. Zong, J. Li, A study of RC bridge columns under contact explosion, International Journal of Impact Engineering, 109 (2017) 378-390. (ERA A)

2. J. Xu, C. Wu, J. Li, J. Cui, Simplified finite element method analysis of ultra-high-performance fibre-reinforced concrete columns under blast loads, Advances in Structural Engineering, 20 (2017) 139-151. (ERA A)

3. C. Wu, J. Li, Structural protective design with innovative concrete material and retrofitting technology, Procedia Engineering, 173 (2017) 49-56.

4. H. Wang, C. Wu, F. Zhang, Q. Fang, H. Xiang, P. Li, Z. Li, Y. Zhou, Y. Zhang, J. Li, Experimental study of large-sized concrete filled steel tube columns under blast load, Construction and Building Materials, 134 (2017) 131-141. (ERA A*)

5. Xu, S., C. Wu, Z. Liu, J. Li, Numerical study of ultra-high-performance steel fibre–reinforced concrete columns under monotonic push loading. Advances in Structural Engineering, 2017: p. 1369433217747710. (ERA A)

6. Y. Su, C. Wu, J. Li, Z.-X. Li, W. Li, Development of novel ultra-high performance concrete: From material to structure, Construction and Building Materials, 135 (2017) 517-528. (ERA A)

7. Y. Su, J. Li, C. Wu, P. Wu, M. Tao, X. Li, Mesoscale study of steel fibre-reinforced ultra-high performance concrete under static and dynamic loads, Materials & Design, 116 (2017) 340-351. (ERA A)

8. J. Liu, C. Wu, J. Li, Y. Su, R. Shao, Z. Liu, G. Chen, Experimental and numerical study of reactive powder concrete reinforced with steel wire mesh against projectile penetration, International Journal of Impact Engineering, 109 (2017) 131-149. (ERA A)

9. J. Li, C. Wu, Z.-X. Liu, Comparative evaluation of steel wire mesh, steel fibre and high performance polyethylene fibre reinforced concrete slabs in blast tests, Thin-Walled Structures, (2017). (ERA A)

10. J. Li, C. Wu, H. Hao, Y. Su, Z.-X. Li, A study of concrete slabs with steel wire mesh reinforcement under close-in explosive loads, International Journal of Impact Engineering, 110 (2017) 242-254. (ERA A)

11. J. Li, C. Wu, H. Hao, Y. Su, Experimental and numerical study on steel wire mesh reinforced concrete slab under contact explosion, Materials & Design, 116 (2017) 77-91. (ERA A)

12. J. Li, C. Wu, H. Hao, Z. Liu, Post-blast capacity of ultra-high performance concrete columns, Engineering Structures, 134 (2017) 289-302. (ERA A*)

13. J. Li, H. Hao, C. Wu, Numerical study of precast segmental column under blast loads, Engineering Structures, 134 (2017) 125-137. (ERA A*)

14. J. Xu, C. Wu, H. Xiang, Y. Su, Z.-X. Li, Q. Fang, H. Hao, Z. Liu, Y. Zhang, J. Li, Behaviour of ultra-high performance fibre reinforced concrete columns subjected to blast loading, Engineering Structures, 118 (2016) 97-107. (ERA A*)

15. Y. Su, J. Li, C. Wu, P. Wu, Z.-X. Li, Effects of steel fibres on dynamic strength of UHPC, Construction and Building Materials, 114 (2016) 708-718. (ERA A)

16. Y. Su, J. Li, C. Wu, P. Wu, Z.-X. Li, Influences of nano-particles on dynamic strength of ultra-high performance concrete, Composites Part B: Engineering, 91 (2016) 595-609. (ERA A)

17. J. Li, C. Wu, H. Hao, Z. Wang, Y. Su, Experimental investigation of ultra-high performance concrete slabs under contact explosions, International Journal of Impact Engineering, 93 (2016) 62-75. (ERA A)

18. J. Li, C. Wu, H. Hao, Y. Su, Z. Liu, Blast resistance of concrete slab reinforced with high performance fibre material, Journal of Structural Integrity and Maintenance, 1 (2016) 51-59.

19. H. Hao, Y. Hao, J. Li, W. Chen, Review of the current practices in blast-resistant analysis and design of concrete structures, Advances in Structural Engineering, 19 (2016) 1193-1223. (ERA A)

20. J. Li, C. Wu, H. Hao, Y. Su, Investigation of ultra-high performance concrete under static and blast loads, International Journal of Protective Structures, 6 (2015) 217-235.

21. J. Li, C. Wu, H. Hao, Residual loading capacity of ultra-high performance concrete columns after blast loads, International Journal of Protective Structures, 6 (2015) 649-670.

22. J. Li, C. Wu, H. Hao, Investigation of ultra-high performance concrete slab and normal strength concrete slab under contact explosion, Engineering Structures, 102 (2015) 395-408. (ERA A*)

23. J. Li, C. Wu, H. Hao, An experimental and numerical study of reinforced ultra-high performance concrete slabs under blast loads, Materials & Design, 82 (2015) 64-76. (ERA A)

24. H. Hao, J. Li, Structural Response under Blast Loads - Simplified Numerical Analysis, Applied Mechanics and Materials, 782 (2015) 13-26.

25. J. Li, H. Hao, A Simplified Numerical Method for Blast Induced Structural Response Analysis, International Journal of Protective Structures, 5 (2014) 323-348.

26. J. Li, H. Hao, Numerical and theoretical study of concrete spall damage under blast loads, Applied Mechanics and Materials, 553 (2014) 774-779.

27. J. Li, H. Hao, Numerical study of concrete spall damage to blast loads, International Journal of Impact Engineering, 68 (2014) 41-55. (ERA A)

28. J. Li, H. Hao, Numerical study of structural progressive collapse using substructure technique, Engineering Structures, 52 (2013) 101-113. (ERA A*)

29. J. Li, H. Hao, Influence of brittle shear damage on accuracy of the two-step method in prediction of structural response to blast loads, International Journal of Impact Engineering, 54 (2013) 217-231. (ERA A)

30. J. Li, H. Hao, Development of a simplified numerical method for structural response analysis to blast load, Procedia Engineering, 14 (2011) 2558-2566.

31. J. Li, H. Hao, A two-step numerical method for efficient analysis of structural response to blast load, International Journal of Protective Structures, 2 (2011) 103-126.