Papers published in recent three years: 20 12: [1] Wang Licheng. Multiaxial strength criterion (LWA) of lightweight aggregate. Concrete under unified double shear strength theory. Structural Engineering and Mechanics, 2012,41(4): 495-508. Available online. 20 1 1: 1 Wang Licheng and Tamont. Meso-simulation of water permeating into concrete through capillary absorption. Ocean Engineering, 20 1 1, 38(4): 5 19-528. 2 Wang Licheng. Prediction of chloride ion entering concrete by capillary absorption. Advanced materials research, 20 1 1, vol. 163- 167, vol. 3213213. 3 Wang Licheng and Tamen. Mesoscopic simulation of chloride diffusion in concrete considering the correlation between binding force and concentration. Computer and concrete, 20 1 1, 8(2): 125- 142. Wang Licheng and Talmon. Mesoscopic simulation of chloride diffusion in cracked and cracked concrete. Journal of Advanced Concrete Technology, 20 1 1, 9 (3): 241-249.2010:, Liu. Experimental study and statistical analysis on impact resistance of steel fiber lightweight aggregate concrete. Journal of Dalian University of Technology, 2065438. 50(4): 557-563.2 Wang Licheng, Li Shuhong. Durability analysis of reinforced concrete structure based on concrete meso-structure. Journal of Disaster Prevention and Mitigation Engineering, 20 10/0,30 (Supplements): 286-290.3 ō Rissei and Tammone. Numerical determination of chlorine difference coefficient in cracked and cracked concrete. In progress. Proceedings of the 2nd International Conference on Durability of Concrete Structures, 1 1 24th-26th, 20th10, Sapporo, Japan, Hokkaido University Press, 303-309. 4 Wang Licheng. Numerical simulation of mass transfer in cracked concrete based on mesoscale. Proceedings of the 1st 12 International Conference on Inspection, Appraisal, Repair and Maintenance. Structural maintenance, 20 10, Yantai, China,113-11195, Li Shuhong, Wang Licheng. Research progress on capillary water absorption process of porous building materials. Journal of Water Conservancy and Building Engineering, 20 10/0,8 (6):16-20. 2009: 1 Wang Licheng. Analytical method for predicting water absorption of cement-based materials. China Ocean Engineering, 2009,23 (4): 719-728. 2 Wang Licheng, Jia Jinqing. Impact resistance of steel fiber reinforced lightweight aggregate concrete. Journal of Concrete Research, 2009,61(7): 539-547. 3Li- Wang Cheng and Tamon ·UEDA. Mesoscopic simulation of chloride diffusion in concrete considering the influence of time and temperature. Water Science and Engineering, February 2009 (3): 58-70.4 Wang Licheng. Investigation and analysis on earthquake damage of school masonry buildings after Wenchuan earthquake. Journal of Dalian University of Technology, 2009,49 (5): 650-656. 5 Wang Licheng. Theoretical analysis of the relationship between capillary coefficient and water absorption of building materials during water absorption. Journal of Water Resources, April, 2009 (9):1085-1090.6, Ueda, Tameng, ō Rissei. Meso-simulation of chloride diffusion in frost-damaged concrete. International Journal of Modeling, Identification and Control, 2009,7 (2):148-154. Tamon Ueda, Mottaki Hassan, Gai Na Kangping, Sato Tehiko and ō Rissei. Meso-simulation of the influence of freezing injury on the mechanical properties of concrete. Journal of Civil Engineering Materials, ASCE, 2009,21(6): 244-252.19. Wang Licheng and Tamen. Numerical simulation of chloride diffusion in concrete considering binding force and concentration dependence. The 1st International Conference on Computing Technology of Concrete Structures (CTCS 09), Jeju, Korea, May 24-27, 2009, edited by Choi Chang-kong, christian Meyer and Nenad Bicanic, 1249- 1260. 9 Li Jinbo, Gong, Seismic behavior of corroded reinforced concrete columns strengthened with carbon fiber reinforced polymer and steel sleeve. Architecture and Building Materials, 2009,23 (7): 2653-2663. 2008: 1 Matsumoto K, Sato Y, Ueda T and Wang Licheng. Meso-analysis of mortar under high stress creep and low cycle fatigue load. Journal of Advanced Concrete Research, 2008,6 (2): 337-352. 2 Wang Licheng, Su Da, M and Ueda, T. Simulation of chloride diffusion rate of cracked concrete based on RBSM and truss network model. Journal of Advanced Concrete Research, June 2008 (1):143-155. Translated by Wang Lizhong. Meso-simulation of water absorption of frozen concrete. Proceedings of the 8th International Conference on Creep, Shrinkage and Durability of Concrete and Concrete Structures, Iseshi Mo, 2008, CRC Press, 979-985. ō Rissei, Tamon Ueda and Shingo Honda. Prediction of diffusion coefficient of frost-damaged concrete by meso-truss network model. Proceedings of the International Conference on Durability of Concrete Structures, Hangzhou, China, 2008. 1 1, Zhejiang University Press, 267-273.5, A New Residence, Ueda Duomen, Wang Licheng. Analyze freezing and thawing, thawing, cutting, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, cutting, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing, freezing and thawing. Journal of Hydraulic Engineering, 2008,39 (5): 588-595. 8. Liu. Freezing and thawing Engineering Mechanics, 2007,24 (1):129-1359 Wang Haitao, Wang Licheng. Experimental study on steel fiber to improve the mechanical properties of lightweight aggregate concrete [J]. Journal of Building Materials, 2007,10 (2):188-19410 Numerical prediction of chloride ion penetration in concrete based on Wang Lichun and T. The 1st International Conference on Modern Structural Design, Construction and Maintenance, 20071February, Hanoi, Vietnam, Volume I: 306-3131Liu, Song Yupu,. Experimental study on mechanical properties of steel fiber reinforced high strength lightweight aggregate concrete. Journal of Building Structure, 2007,28 (5):110-65438+.