Wang Xiaohui, professor, bachelor's degree of xi 'an Jiaotong university, master's, Dr Engineering of Shanghai Jiaotong university. In 2004, graduated from Shanghai Jiaotong university, Dr. Stay engaged in teaching and scientific research work until September 2015. During August 2005 have been employed as associate professor of Shanghai Jiaotong university, in September 2007, in August 2008 - and the government exchange scholarship program, as a visiting scholar at the Norwegian university of science and technology work and participate in the "Project of 3-3.5 related research. In march, 2011 - March 2012 in order to Research the Associate status at the Hong Kong polytechnic university department of civil and structural engineering is engaged in the Research of FRP reinforced concrete members. In August 2015 - August 2017 to Marie Curie scholars (Marie Curie Research Fellow) identity Heriot Watt - university in the UK for the whole life cycle of reinforced concrete structures under climate change Research and total cost assessment. 4 month post of Shanghai maritime university in 2018.
Successively presided over the first head of a European Union MARIE to project Sk Ł odowska - CURIE ACTIONS - Horizon project 2020 and two national natural science fund project; To charge the second project to participate in a program of national natural science foundation of China; To project the backbone researchers involved in the national key basic research development program (973 program) a; To Project the main executor to participate in "Project 3-3.5 projects a and FRP two related projects. Published 38 papers, of which the first author/corresponding author SCI retrieval 18 papers: 2-4 areas including SCI 2 area 8 articles; SCI 3 area 2; Article 8 SCI 4 areas. The first author/corresponding author EI retrieval 2 papers in English; The first author/corresponding author EI retrieval 2 papers in Chinese; The first author/corresponding author CPCI - S international conference 2 papers.
Work experience
April 2018 - so far: Shanghai maritime university, institute of Marine science and engineering, port channel and coastal engineering, professor
In August 2015 - August 2017: Heriot Watt University, Edinburgh, UK, Marie Curie scholars (Marie Curie - Research Fellow, Individual Fellowships), by the European Union Marie Curie action plan Horizon 2020 (Marie Sk Ł odowska - Curie ACTIONS Horizon2020) funding (195455 euros) grants:
In March 2012 - September 2015: Shanghai Jiaotong university, institute of ship and ocean engineering, civil engineering, associate professor
In March 2011 - March 2012: Research Associate, Department of Civil & Structural Engineering, The Hong Kong Polytechnic University, Kowloon, Hong Kong, P.R. China
In August 2008 - March 2011: Shanghai Jiaotong university, institute of ship and ocean engineering, civil engineering, associate professor
In September 2007 - August 2008: want scholar, Department of Structural Engineering, Norwegian University of Science and Technology, Norway
In August 2005 - September 2007: Shanghai Jiaotong university, institute of ship and ocean engineering, civil engineering, associate professor
In August 2004 - August 2005: Shanghai Jiaotong university, institute of ship and ocean engineering, civil engineering, lecturer
April 2000 - February 2001: Shanghai normal university, construction department, lecturer
April 1998 - April 2000: Shanghai normal university, construction department, assistant professor
education
In February 2001 - July 2004: Ph.D., Shanghai Jiaotong university, school of construction engineering and mechanics, solid mechanics
In September 1995 - April 1998: master, xi 'an Jiaotong university, department of construction, construction engineering
In September 1991 - July 1995: bachelor, xi 'an Jiaotong university, construction department, industrial and civil buildings
The research project
Preside over the project
1. The "Climate - resilient pathways for the development of concrete infrastructure: adaptation and mitigation and sustainability (ClimatCon)" : the European Union MARIE Sk Ł odowska - CURIE ACTIONS - Horizon 2020 MARIE CURIE fellowship (MARIE CURIE Individual Fellowships) fund (fund amount: 195455 euros; Execution time: 2015.8 2017.8)
2. The fatigue load and environment under the action of coupling service durability of reinforced concrete members with epoxy coating performance: the national natural science fund project (project approval no. : 51178266; Funding amount: 580000 yuan. Execution time: 2012.1 2015.12)
Local section 3. The corrosion of the bearing capacity of reinforced concrete member research: the national natural science fund project (project approval no. : 50508020; Funding amount: 240000 yuan. Execution time: 2006.1 2008.12)
Participate in the project
1. Consider the function of reduced significant engineering structures under the action of earthquake damage process and the control methods: national key basic research development program (973 program) project (no. 2002 cb412709)
2. Start corrosion rate of reinforcement in concrete conditions of research: the national natural science fund project (execution time: 2008.1 2010.12)
3. "the Project of 3-3.5: - move the government swap Project, and the Norwegian university of science and technology of structure engineering of Stefan professor Jacobsen COIN (Concrete Innovation Centre) Project 3, Nanotechnology applied to Cement - -based Materials in Concrete or mortar bonding interface transition zone in the performance of the research
4. In the Hong Kong polytechnic university, department of civil and structural engineering to undertake the following research of the project:
1) the Durability of Bond between FRP and Concrete Exposed to a Humid Subtropical Environment, experimental study and predictive modeling (RGC)
2) Durability of FRP - confined Concrete Columns in Humid Subtropical Marine Environments
The research direction
1. The whole life cycle of reinforced concrete structures under climate change and full cost estimation
2. Containing epoxy coating on the durability of reinforced concrete structures under chloride environment performance
3. The chlorine environments of ordinary reinforced concrete structure durability
4. The interface transition zone in cement base material performance study
5. Between FRP and concrete bonding performance
6. The mechanism of bond between steel bar and reinforced concrete
The main academic papers published
English journal articles
[1] X-H Wang, B. Chen, P. Tang, Experimental and analytical study on bond strength of normal uncoated and epoxy-coated reinforcing bars, accepted for publication in Construction and Building Materials, Sept. 2018
[2] X-H Wang, Dimitri V. Val, Li Zheng, M. Roderick Jones, Influence of loading and cracks on carbonation of RC elements made of different concrete types, Construction and Building Materials, 2018, 164: 12~28,SCI、EI
[3] X-H Wang, Emilio Bastidas-Arteaga, Yang Gao, Probabilistic analysis of chloride penetration in reinforced concrete subjected to pre-exposure static and fatigue loading and wetting-drying cycles, Engineering Failure Analysis, 2018; 84: 205–219,SCI、EI ,Cited frequency:1
[4] X-H Wang, Y Gao, R-D Gao, J Wang, X-L Liu, Influence of different fatigue loads and coating thicknesses on service performance of RC beam specimens with epoxy-coated reinforcement, Computers and Concrete, 2017; 19(3): 243-256, Cited frequency:1
[5] X-H Wang, Y Gao. Corrosion behavior of epoxy-coated reinforced bars in RC test specimens subjected to pre-exposure loading and wetting-drying cycles. Construction and Building Materials, 2016; 119: 185-205, Cited frequency:3
[6] X-H Wang, B Chen, Y Gao, J Wang, L Gao. Influence of external loading and loading type on corrosion behavior of RC beams with epoxy-coated reinforcements. Construction and Building Materials, 2015; 93(15): 746-765, Cited frequency:3
[7] X-H Wang, X-L Liu, Analysis of RC beam with unbonded or exposed tensile steel reinforcements and defective stirrup anchorages for shear strength, Computers and Concrete, 2012, 10(1), 59-78. Cited frequency:1
[8] X-H Wang, B Li, X-H Gao, X-L Liu, Shear behaviour of RC beams with corrosion damaged partial length, Materials and Structures, 2012, 45(3), 351–379. Cited frequency:6
[9] X-H Wang, X-H Gao, B Li, B-R Deng, Effect of bond and corrosion within partial length on shear behaviour and load capacity of RC beam, Construction and Building Materials, 2011, 25(4), 1812-1823. Cited frequency:16
[10] X-H Wang, S Jacobsen, S F Lee, J Y He, Z L Zhang, Effect of silica fume, steel fiber and ITZ on the strength and fracture behavior of mortar, Materials and Structures, 2010,43(1-2), 125-139. Cited frequency:14
[11] X-H Wang, X-L Liu, Simplified methodology for the evaluation of the residual strength of corroded reinforced concrete beams, Journal of Performance for Constructed Facilities, 2010, 24(2), 108-119. Cited frequency:20
[12] X-H Wang, X-L Liu, Predicting the flexural capacity of RC beam with partially unbonded steel reinforcement, Computers and Concrete, 2009, 6(3), 235-252. 被Cited frequency:5
[13] X-H Wang, S Jacobsen, J Y He, Z L Zhang, S F Lee, H L Lein, Application of nanoindentation testing to study of the interfacial transition zone in steel fiber reinforced mortar, Cement and Concrete Research, 2009, 39(8), 701-715. Cited frequency:66
[14] X-H Wang, F-Y Liang, Performance of RC columns with partial length corrosion, Nuclear Engineering and Design, 2008, 238(12), 3194-3202. Cited frequency:12
[15] X-H Wang, X-L Liu, Bond strength modeling for corroded reinforcements, Construction and Building Materials, 2006, 20(3), 177-186. Cited frequency:42
[16] X-H Wang, X-L Liu, Modelling effects of corrosion on cover cracking and bond in reinforced concrete, Magazine of Concrete Research, 2004, 56(4), 191-199. Cited frequency:27
[17] X-H Wang, X-L Liu, Modeling bond strength of corroded reinforcement without stirrups, Cement and Concrete Research, 2004, 34(8), 1331-1339. Cited frequency:40
[18] X-H Wang, X-L Liu, Bond strength modeling for corroded reinforcement in reinforced concrete, Structural Engineering and Mechanics, 2004, 17(6), 863-878. Cited frequency:5
[19] X-H Wang, X-L Liu, A strain-softening model for steel–concrete bond, Cement and Concrete Research, 2003,33(10), 1669-1673. Cited frequency:19
[20] X-H Wang, X-L Liu, B-R Deng, Effects of length and location of steel corrosion on the behavior and load capacity of RC columns, Journal of Shanghai Jiaotong Uni. (English Edition), 2012, 17(4), 391-400. EI
[21] X-H Wang, X-L Liu, Modeling the flexural carrying capacity of corroded RC beams, Journal of Shanghai Jiaotong Uni. (English Edition), 2008, 13(2), 129-135. EI
[22] X-D Dai, X-H Wang, X-J Kou, Bond behavior of corroded reinforcement in concrete wrapped with carbon fiber reinforced polymer under cyclic loading, Journal of Shanghai Jiaotong Uni. (English Edition), 2013, 18(3), 271-277. EI
[23] S F Lee, X-H Wang, S Jacobsen, Mix design and the effect of silica fume and steel fiber on rheological and mechanical properties of mortars, Nordic Concrete Research, 2010, 41(1), 33-50. EI
English international conference on articles
[24] X-H Wang, D Val, Influence of pre-exposure fatigue loading on chloride penetration in concrete specimens with epoxy-coated reinforcement, Proceedings of the 9th International Concrete Conference 2016Environment, Efficiency and Economic Challenges for Concrete, 4-6 July 2016, Dundee, Scotland, UK, 789-804
[25] X-H Wang, J Jiang, Evaluating load capacity and failure mode of the RC beam under coupled external loads and environment attacks, Proceedings of the Seventh International Conference on Concrete under Severe Conditions – Environment and Loading, Edited by Z.J. Li, W. Sun, C. W. Miao, K. Sakai, O.E.Gjørv& N. Banthia, Sept.2013, Vol.2,1055-1064.
[26] S F Lee, J Y He, X-H Wang, Z L Zhang, S Jacobsen, Study of P-h Curves on Nanomechanical Properties of Steel Fiber Reinforced Mortar, In: 3rd International Symposium on Nanotechnology in Construction, Prague, Czech Republic, MAY 31-JUN 02, 2009, 281-286. CPCI-S
[27] X-H Wang, Modeling the flexural capacity of reinforced concrete beam with partially unbonded length, In: International Conference on Durability of Concrete Structures, 26-27 November, 2008, Zhejiang University, Hangzhou, China, 896-902. CPCI-S
[28] X-H Wang, X-L Liu, Modeling bond strength of corroded reinforcement with confinement stirrups, In: International Conference on Durability of Concrete Structures, 26-27 November, 2008, Zhejiang University, Hangzhou, China, 903-908. CPCI-S
EI journal articles in Chinese
[29] Wang Xiaohui fa-yun liang, Liu Xi, partial section experimental study corrosion of the bearing capacity of reinforced concrete column, journal of Shanghai jiaotong university (institute), Vol. 43, No. 6200, 9999-1004, EI retrieval
[30] Wang Xiaohui Liu Xi pull, corroded reinforced concrete beam's oblique section shear bearing capacity, journal of Shanghai jiaotong university (institute), Vol. 41, No. 6200, 7944-949, EI retrieval
[31] Guo Defa Wang Xiaohui, nonlinear hysteresis system of random seismic response and dynamic reliability analysis, journal of xi 'an jiaotong university (institute), Vol. 33, No. 4199 9,65-68, EI retrieval
Review: the reader of the following SCI journals
· Journal of Structural Engineering
· Construction and Building Materials
· Computers and Concrete, An international Journal
· Structure and Infrastructure Engineering
· Advances in Structural Engineering
· Engineering Structures
· Journal of Performance of Constructed Facilities
Honors and awards
2007/2008, China - the Norwegian government scholarship
Wu Shaolin Shanghai jiaotong university scholarship in 2004
Outstanding graduate of Shanghai jiaotong university, 2004