The 7th FRP-SSC Workshop 第七屆FRP-SSC國際研討會 Short Biography of Project Coordinator Professor Tao YU is a Professor in Structural Engineering in the Department of Civil and Environmental Engineering and an Associate Director of the Research Institute for Sustainable Urban Development at The Hong Kong Polytechnic University. Professor YU’s research focuses on infrastructure applications of composite materials, with emphasis on innovative hybrid structures enabled by fibre-reinforced polymer (FRP) and FRP-seawater sea-sand concrete (SSC) structures. Professor YU has authored or co-authored over 160 research papers, which have received over 9000 citations. Professor YU is one of the main contributors for the Chinese national standard “Technical Standard for FRP in Construction (GB50608-2020)” and an inventor of several novel high-performance structural elements incorporating FRP. Professor YU received many prestigious awards, including the Distinguished Young Researcher Award from the International Institute for FRP in Construction (IIFC), and the 2018 Golden Wattle Award (Top Ten Outstanding Australian Chinese Youth). 項目統籌人簡介 余濤教授現任香港理工大學土木及環境工程學系結構工程教授 及可持續城市發展研究院副院長,主要研究領域為土木工程複 合材料結構,包括新型複材組合結構及複材 - 海水海砂混凝土 結構,發表學術論文 160 餘篇,論文被引 9000 餘次。余濤教 授是國家標準《纖維增強複合材料建設工程應用技術規範 - GB50608》的主要起草人之一,也發明了多種新型高性能複材 組合構件,曾獲國際土木工程複合材料學會傑出青年學者獎、 澳大利亞十大傑出華人青年金合歡獎等獎項。 Project Summary The fundamental mechanisms of seawater sea-sand concrete (SSC) have been clarified, and various types of SSC have been developed through mix proportion optimisation. Various innovative forms of FRP-SSC structural members and connections have been developed, and reliable design methods have been established for them. Various types of sensors, including pH, moisture, chloride, sulphate sensors, have been developed and integrated into a sensing system for hybrid monitoring of the long-term performance of FRP-SSC structures. A performance simulation platform based on multi-scale multi-physics modelling of deterioration at the material and structure levels and the accelerated and field exposure tests has been established for predicting the long-term performance of FRP-SSC structures. 項目概要 闡明海水海砂混凝土(SSC)的基本機理,並在此基礎上通過 配合比優化研發多種類型的 SSC。 研發多種新型 FRP-SSC 結構構件和連接,並為其建立可靠的 設計方法。 研發多種類型的傳感器,包括 pH、濕度、氯離子和硫酸根離 子傳感器,並將其集成到傳感系統中,用於混合監測 FRP-SSC 結構的長期性能。 基於材料和結構層面劣化的多尺度、多物理場模擬以及加速和 現場暴露試驗的結果,建立一個性能模擬平臺,用於預測 FRP-SSC 結構的長期性能。 Sustainable Marine Infrastructure Enabled by the Innovative Use of Seawater Sea-Sand Concrete and Fibre-Reinforced Polymer Composites 基於海水海砂混凝土與纖維增強複合材料的 新型可持續海洋工程結構 T22-502/18-R Project Coordinator Professor Tao YU The Hong Kong Polytechnic University 項目統籌人 余濤教授 香港理工大學 14 THEME 主題 2 | Developing a Sustainable Environment 建設可持續發展的環境 Participating Institutions City University of Hong Kong The Hong Kong University of Science and Technology Southern University of Science and Technology University of Macau Vanderbilt University University of London 參與院校 香港城市大學 香港科技大學 南方科技大學 澳門大學 范德堡大學 倫敦大學
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