王眺 - 同济大学 - 材料科学与工程学院

个人简介

教育经历 2014/09-2017/10：工学博士（土木工程），东京大学 2009/09-2012/05：硕士学位（结构工程），同济大学 2004/09-2008/05：学士学位（土木工程），汕头大学工作经历 2023/04-至今：同济大学，材料科学与工程学院，特聘研究员 2019/04-2023/02：东京大学，社会基盘系，特任助理教授 2017/10-2019/03：东京大学，社会基盘系，博士后研究员 2013/04-2014/09：香港理工大学，土木与环境工程系，研究助理获奖情况日本土木学会吉田研究奖

研究领域

掺合料（SCMs）的材料物理化学特性表征与掺合料在水泥体系中的火山灰反应机理混凝土的微观结构与水分和有害物质的传输过程混凝土结构的全寿命劣化机理的研究与多尺度模拟混凝土结构全寿命可靠度分析

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）

T. Wang*, C.H Li, J.J Zheng, J. Hackl, Y. Luan, T. Ishida, S. Medepalli “Consideration of coupling of crack development and corrosion in assessing the reliability of reinforced concrete beams subjected to bending”, Reliability Engineering & System Safety, 2023 T. Wang, J.J Zheng, J.G. Dai* “Analysis of time-dependent chloride diffusion in surface-treated concrete based on a rapid numerical approach”, Structure and Infrastructure Engineering. 2021 P. 1-13. T. Wang*, T. Ishida, R. Gu, Y. Luan “Experimental investigation of pozzolanic reaction and curing temperature-dependence of low-calcium fly ash in cement system and Ca-Si-Al element distribution of fly ash-cement paste”, Construction and Building Materials. 267 2021, P. 121012 T. Wang, T. Ishida*, R. Gu, “A study of the influence of crystal component on the reactivity of low-calcium fly ash in alkaline conditions based on SEM-EDS”, Construction and Building Materials, 243(20) 2020, P. 118227 T. Wang, T. Ishida* “Multiphase pozzolanic reaction model of low-calcium fly ash in cement systems”, Cement and Concrete Research. Vol. 122 2019, P. 274-287 T. Wang, T. Ishida*, R. Gu, “A comparison of the specific surface area of fly ash measured by image analysis with conventional methods”, Construction and Building Materials. 190(30) 2018, P. 1163-1172. T. Ishida*, T. Wang, “Future of Multiscale Modelling of Concrete - toward a Full Integration of Cement Chemistry and Concrete Structural Engineering”, RILEM Technical Letters. 3 (2018), P. 17-24. T. Wang, J.G. Dai*, J.J. Zheng. “Multi-angle truss model for predicting the shear deformation of RC beams with low span-effective depth ratios”, Engineering Structures. Vol. 91 2015, P. 85-95.