个人简介

汪毅，男，1988年生，湖南常德人，主持国家自然科学基金、日本文部省学术振兴会基金和中国博士后科学基金面上项目各1项；参与国家自然科学基金、广东省教育厅重大项目、广州市产学研协调创新重大专项等多项科研项目。于中南大学获学士、硕士学位，于日本北海道大学（Hokkaido University）获博士学位。广东工业大学博士后，日本东京大学（The University of Tokyo）JSPS特别研究员。近5年来，发表论文40多篇，以第一作者或通讯作者在cement and concrete composites、Engineering Structures、Composite Structures、Engineering Fracture Mechanics等期刊发表SCI论文近20篇，多次在国际会议上进行学术报告。 招生意向：每年招收2-3名硕士研究生，欢迎对结构智能检测评估与加固维护方面感兴趣的优秀学生加入课题组; 同时也欢迎本科生参与科研项目和创新创业课题。 教育经历 2013.10-2016.9 北海道大学 工学博士学位 | 博士研究生毕业 2010.9-2013.5 中南大学 工学硕士学位 | 硕士研究生毕业 2006.9-2010.6 中南大学 工学学士学位 | 大学本科毕业 工作经历 2020.10-至今 土木工程学院 | 中南大学 特聘教授 2018.10-2020.9 生产技术研究所 | 东京大学 JSPS特别研究员 2016.11-2018.10 土木与交通工程学院 | 广东工业大学 博士后 科研项目 [1]基于导电性分析的湿热环境下CFRP-混凝土界面粘结性能退化规律研究,国家自然科学基金青年科学基金项目，主持，在研 [2]Evaluating bond performance of repaired concrete structures based on electrical analysis,日本文部省项目： Grant-in-Aid for JSPS Fellows，共同主持，结题 [3]PCM修复火灾损伤混凝土结构界面导电性分析方法研究,中国博士后科学基金面上项目，主持，结题 [4]湿热环境下预应力CFRP加固RC梁的疲劳损伤演化及刚度退化模型研究,国家自然科学基金面上项目，在研，参与 [5]在役混凝土桥梁结构安全控制关键技术研究,广东省教育厅重大项目，在研，参与 [6]火灾后钢筋混凝土建筑物结构安全的应急鉴定新技术研究及指南编制,广州市产学研协调创新重大专项，在研，参与 [7]Deterioration of interfacial bond property under combined effects and prediction of performance of members after intervention,日本文部省项目：基盘研究（A），结题，参与 专利成果 [1]基于超声红外复合检测技术的混凝土结构火灾损伤快速检测评估鉴定系统 获奖信息 [1]最佳论文奖，The 5th International Conference on the Durability of Concrete Structures, Shenzhen, China, 2016. [2]日本学术振兴会特别研究员，2018

研究领域

混凝土结构耐久性（冻害、碱骨料反应、延迟钙矾石生成、钢筋锈蚀）、结构加固与修复和智能隐蔽损伤探测等。

混凝土结构隐蔽损伤多目标智能无损检测/监测系统、结构损伤评估系统、优化结构损伤加固和修复以及加固后结构生命周期预测的技术体系

近期论文

查看导师新发文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1]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 [2]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 [3]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 [4]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 [5]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 [6]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 [7]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 [8]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 [9]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 [10]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 [11]Y. Wang,Z.W. Geem*,K. Nagai*.Bond strength assessment of concrete-corroded rebar interface using artificial neural network:Applied Sciences,10, 2020:4724 [12]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 [13]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 [14]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 [15]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 [16]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 [17]X. He,C. Zhou*,Y. Wang*.Interfacial stresses in RC cantilever members strengthened with FRP laminates:Advances in Structural Engineering,23, 2020:277-288 [18]Y. Wang,C. Zhou*.Bond characteristics of CFRP/steel interface end-anchored with G-shaped clamps:Polymers & Polymer Composites,25, 2017:643-649 [19]Y. Wang,F. Gong,D. Zhang*,T. Ueda.Mesoscale study of water transport in mortar influenced by sodium chloride:Journal of Asian Concrete Federation,2, 2016:1-14 [20]K. Rashid,X. Li,Y. Xie,Y. Wang,J. Deng*,S. Chen.Experimental and analytical evaluation of the flexural performance of CFRP-strengthened RC beams at various pre-stressing levels:Composite Structures,227, 2019:111323 [21]Z. Wang,F. Gong*,D. Zhang,Y. Wang,T. Ueda.RBSM based analysis on mechanical degradation of concrete under frost action- A general prediction with various cement grades and lowest temperatures:Construction and Building Materials,211, 2019:744-755 [22]J. Deng,Y. Zheng,Y. Wang,T. Liu,H. Li.Study on axial compressive capacity of FRP-confined concrete-filled steel tubes and its comparisons with other composite structural systems:International Journal of Polymer Science,2017:Article ID 6272754 [23]F. Gong,T. Ueda,Y. Wang,D. Zhang,Z. Wang.Mesoscale simulation of fatigue behavior of concrete materials damaged by Freeze-thaw Cycles:Construction and Building Materials,144, 2017:702-716 [24]J. Li,J. Deng*,Y. Wang,J. Guan,H. Zheng.Experimental study of notched steel beams strengthened with a CFRP plate subjected to overloading fatigue and wetting/drying cycles:Composite Structures,209, 2019 [25]J. Li,Y. Wang,J. Deng*,Y. Jia.Experimental study on the flexural behaviour of notched steel beams strengthened by prestressed CFRP plate with an end plate anchorage system:Engineering Structures,171, 2018:29-39 [26]F. Gong,Y. Wang,D. Zhang*,T. Ueda.Mesoscale simulation of deformation for mortar and concrete under cyclic freezing and thawing stress:Journal of Advanced Concrete Technology,13, 2015:291-304 [27]F. Gong,Y. Wang,D. Zhang*,T. Ueda.Modeling and mesoscale simulation of ice-strengthened mechanical properties of concrete at low temperatures:Journal of Engineering Mechanics, ASCE,2017:04017022, 1-16 [28]Y. Wang*,F. Gong,D. Zhang,T. Ueda.Theoretical Model for Estimation of Ice Content of Concrete by Using Electrical Measurements:Procedia Engineering,95, 2014:366-375

学术兼职

2020.5-至今 建筑结构学报中青年审稿专家 Cement and Concrete Composites 等多个国际学术期刊审稿人