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特聘教授 博士生导师 硕士生导师
入职时间:
2020-10-20
所在单位:
土木工程学院
职务:
建筑工程系副主任
学历:
研究生(博士后)
办公地点:
土木工程实验室1号楼209
性别:
男
联系方式:
Email:wangyi.ce@csu.edu.cn
学位:
博士学位
在职信息:
在职
毕业院校:
北海道大学
学科:
土木工程
论文成果
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论文成果
[1]Xiaoda Li, Yan Xie, Jun Deng, Yi Wang, Tonghua Liu, Khuram Rashid.RC beams strengthened by prestressed CFRP plate subjected to sustained loading and continuous wetting condition: Time-dependent prestress loss.Construction and Building Materials
[2]Jun Deng, Yi Wang, Changkai Huang, Yan Xie, Xiaoda Li.RC beams strengthened by prestressed CFRP plate subjected to sustained loading and continuous wetting condition: Flexural behaviour.Construction and Building Materials
[3]Yi Wang, Tamon Ueda, Junhui Li, Dawei Zhang, Jun Deng.Meso-scale mechanical deterioration of mortar subjected to freeze thaw cycles and sodium chloride attack.Cement and Concrete Composites, 2021, 117: 103906.
[4]Y. Wang*, Y. Meng, P. Jiradilok, K. Matsumoto, K. Nagai, S. Asamoto.Expansive cracking and compressive failure simulations of ASR and DEF damaged concrete using a mesoscale discrete model.Cement and Concrete Composites, 104, 2019: 103404.
[5]Y. Wang*, T. Ueda, F. Gong, D. Zhang.Meso-scale mechanical deterioration of mortar due to sodium chloride attack.Cement and Concrete Composites, 96, 2019: 163-173.
[6]K. Rashid, Y. Wang*, T. Ueda.Influence of continuous and cyclic temperature durations on performance of polymer cement mortar and its composite with concrete.Composite Structures, 215, 2019: 214-225.
[7]P. Jiradilok, Y. Wang*, K. Nagai, K. Matsumoto.Development of discrete meso-scale bond model for corrosion damage at steel-concrete interface.Construction and Building Materials, 236, 2020: 117615.
[8]Y. Wang, F. Gong, D. Zhang*, T. Ueda.Estimation of ice formation in mortar saturated with sodium chloride solutions.Construction and Building Materials, 144, 2017: 238-251.
[9]Y. Wang, X. Li, J. Li, Q. Wang, B. Xu, J. Deng*.Debonding damage detection of the CFRP-concrete interface based on piezoelectric ceramics by the wave-based method.Construction and Building Materials, 210, 2019: 514-524.
[10]J. Deng, J. Li, Y. Wang*, W. Xie.Numerical study on notched steel beams strengthened by CFRP plates.Construction & Building Materials, 163, 2018: 622-633.
[11]Y. Wang, J. Li, J. Deng*, S. Li.Bond behaviour of CFRP/steel strap joints exposed to overloading fatigue and wetting/drying cycles.Engineering Structures, 172, 2018: 1-12.
[12]Y. Wang, P. Jiradilok*, K. Nagai, S. Asamoto.A mesoscale discrete model for mechanical performance of concrete damaged by coupled ASR and DEF.Engineering Fracture Mechanics, 232, 2020: 107055.
[13]Y. Wang, T. Ueda*, F. Gong, D. Zhang*, Z. Wang.Experimental examination of electrical characteristics for Portland cement mortar frost damage evaluation.Materials, 13, 2020: 1256, 1-22.
[14]Y. Wang, Z.W. Geem*, K. Nagai*.Bond strength assessment of concrete-corroded rebar interface using artificial neural network.Applied Sciences, 10, 2020: 4724.
[15]Y. Wang, Y. Zheng, J. Li, L. Zhang, J. Deng*.Experimental study on tensile behaviour of steel plates with center hole strengthened with CFRP plates under marine environment.International Journal of Adhesion and Adhesives, 84, 2018: 18-26.
[16]Y. Wang, F. Gong, D. Zhang*, T. Ueda.Estimation of ice content in mortar based on electrical measurements under freeze-thaw cycle.Journal of Advanced Concrete Technology, 14, 2016: 35-46.
[17]C. Zhou, Y. Guo, Y. Wang*, X. He, Z. Xiong.Flexural behaviour of narrow RC beams strengthened with hybrid anchored CFRP sheets.Journal of Advanced Concrete Technology, 18, 2020: 54-66.
[18]Y. Wang, J. Li, J. Deng*, W. Xie, Y. Zheng.Numerical study on notched steel plate with center hole strengthened by CFRP.Journal of Adhesion Science and Technology, 32, 2018: 1066-1080.
[19]Y. Wang, C. Zhou, X. Li, Z. Lu*, F. Gong.Experimental study on steel plates with and without notches strengthened by CFRP sheets.Journal of Adhesion Science and Technology, 33, 2019: 1895-1912.
[20]X. He, C. Zhou*, Y. Wang*.Interfacial stresses in RC cantilever members strengthened with FRP laminates.Advances in Structural Engineering, 23, 2020: 277-288.
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