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徐世烺
中国科学院院士,浙江大学教授、博士生导师
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详细介绍
徐世烺
中国科学院院士,浙江大学教授、博士生导师
个人履历:
徐世烺:男,1953年出生,陕西柞水县人,结构工程专家,中国科学院院士,浙江大学教授、博士生导师,浙江大学高性能建筑结构与材料研究所所长,浙江大学建筑工程学院学术委员会主任,国家杰出青年基金获得者、德国洪堡奖励基金获得者,教育部长江学者特聘教授,享受国务政府特殊津贴。1977年8月本科毕业于西北农学院水利系;1979年开始师从赵国藩攻读硕士学位;1982年毕业后在大连工学院留校任教;1983年晋升讲师;1984年开始攻读博士学位;1988年获大连理工大学博士学位;1990年晋升副教授;1992年3月赴英国威尔斯大学卡迪夫分校做高级访问学者和访问教授;1992年10月转赴德国作洪堡基金博士后研究员,接着在德国斯图加特大学结构材料研究所担任研究工程师和客座教授;2004年2月底全职归国;2005年至2009年大连理工大学特聘教授;2009年调任浙江大学建筑工程学院院长;2010年创建了浙江大学高性能建筑结构与材料研究所并担任首任所长;2009年起任浙江大学建筑工程学院学术委员会主任;2021年当选为中国科学院院士。主要从事高性能混凝土结构和材料研究工作。创立了具有重要国际影响力的混凝土双K断裂理论,提出了混凝土结构完整性安全评价准则,建立了系统的混凝土裂缝安全分析理论和测试技术体系,领导制定了《用楔形劈裂试验和三点弯曲梁试验确定混凝土裂缝扩展双K准则的试验方法》国际标准。双K断裂理论成功应用于乌江东风混凝土高拱坝、乌江索风营重力坝、长江三峡大坝二期工程和三期工程、南水北调中线水源工程丹江口大坝加高工程裂缝完整性评定和裂缝控制,为重大水利水电工程安全运营提供了重要技术支撑。研发了高韧性混凝土及复合控裂结构,为基础设施安全服役提供了技术保障,实现混凝土抗裂性能和耐久性能大幅提升。发明的高韧性混凝土成功应用到上海吴淞军港、浙江新岭隧道、舟山鱼山跨海大桥、杭州秋石高架桥等15项重大工程;发表论文400余篇,在国际期刊和中国国内一级学会期刊发表论文220余篇,其中SCI论文100余篇,EI论文260余篇,出版学术专著5部,论著他引4000余次;获得国家授权发明专利28项。研究成果获得国家自然科学奖二等奖、国家技术发明奖二等奖、国家科技进步奖三等奖各1项及省部级自然奖和发明奖一等奖4项。
论文代表:
Structural behaviors of ultra-high performance engineered cementitiouscomposites (UHP-ECC) beams subjected to bending-experimental study, Construction & Building Materials,177 (2018),102-115.
Shear bond assessment of UHTCC repair using push-out test,Construction & Building Materials , 2018,164(10) :206-216.
Manas Sarkar, Influence of the PVA fibers and SiO2 NPs on the structural properties of fly ash based sustainable geopolymer, Construction & Building Materials,2018,164(10) :238-245.
Feasibility study of strain hardening magnesium oxychloride cement-based composites, Construction & Building Materials,2018,165(20) :750-760.
Micro-crack damage in strip of fracture process zone, International Journal of Solids and Structures,2018,147(15):29-39.
Microfracture Characterization of Cement Paste at Early Age by Indentation Test, Journal of Materials in Civil Engineering(ASCE),2018, 30(6)
Residual compressive strength of hardened OPC/CAC paste after fire exposure, Magazine of Concrete Research (2018):1-31.
Comparison of Cast-In-Situ and Prefabricated UHTCC Repair Systems under Bending, Journal of Materials in Civil Engineering(ASCE),2018,30(1): 04017249.
Development of reinforced ultra-high toughness cementitious composite permanent formwork: Experimental study and Digital Image Correlation analysis. Composite Structures, 2017,180: 892-903.
Effect of pore shape on the thermal conductivity of partially saturated cement-based porous composites. Cement and Concrete Composites,2017,81: 87-96.
Frequency Effect on the Compressive Fatigue Behavior of Ultrahigh Toughness Cementitious Composites: Experimental Study and Probabilistic Analysis. Journal of Structural Engineering(ASCE),2017,143(8): 04017073.
Bond investigation of hybrid textile with self-compacting fine-grain concrete. Journal of Industrial Textiles,2017,46(8): 1616-1632.
Effect of corrosion on bond behaviors of rebar embedded in ultra-high toughness cementitious composite. Construction and Building Materials, 2017,138: 141-150.
A strain-hardening cementitious composites with the tensile capacity up to 8%. Construction and Building Materials, 2017,137: 410-419.
Bond investigation of hybrid textile with self-compacting fine-grain concrete, Journal of Industrial Textiles,2017,46(8): 1616-1632.
Compressive fatigue damage and failure mechanism of fiber reinforced cementitious material with high ductility. Cement and Concrete Research,2016,90: 174-183.
Fatigue damage propagation models for ductile fracture of ultrahigh toughness cementitious composites. International Journal of Damage Mechanics,2016: 1056789516635727.
Microstructure and Mechanical Properties of High-Toughness Fiber-Reinforced Cementitious Composites after Exposure to Elevated Temperatures, Journal of Materials In Civil Engineering(ASCE),2016,28(11): 04016132.
Influence of steel fiber on dynamic compressive behavior of hybrid fiber ultra high toughness cementitious composites at different strain rates, Construction and Building Materials, (125) 2016,490-500.
Estimation of real fracture parameters of a dam concrete with large size aggregates through wedge splitting tests of drilled cylindrical specimens, Engineering Fracture Mechanics,163 (2016) 23–36.
Flexural and Interface Behaviors of Reinforced Concrete/Ultra-high Toughness Cementitious Composite (RC/UHTCC) Beams. Journal of Advanced Concrete Technology,2015,13(2): 82-93.
Mechanical behaviour of TRC thin-plates exposed to high temperature: experimental study, Magazine of Concrete Research, 2015,67(21): 1135-1149.
Discussion of "Numerical simulation of moisture transport in concrete based on a pore size distribution model". Cement and Concrete Research,73(2015), 63-66.
Mechanical properties and microstructure of multi-walled carbon nanotube-reinforced cement paste. Construction and Building Materials,76(2015),16-23.
Extended embedded finite elements with continuous displacement jumps for the modeling of localized failure in solids. Computer Methods in Applied Mechanics and Engineering,285(2015),346–378.
著作代表:
《混凝土断裂力学》,作者:徐世烺,科学出版社2011年出版;
《超高韧性水泥基复合材料在高性能建筑结构中的基本应用》,作者:徐世烺、李庆华,科学出版社2010年出版;
《混凝土断裂试验和断裂韧度测定的标准方法》,徐世烺等编著,机械工业出版社2010年出版;
《混凝土断裂力学研究》,作者:徐世烺、赵国藩,大连理工大学出版社1991年出版。
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