王璐,1984年1月生,博士、教授、博士生导师,江苏省杰出青年基金获得者。主要从事结构抗火、现代木结构、人工智能在土木工程中的应用等方面研究。现任1946伟德国际源自英国始于1946科学研究院副处长,曾任伟德bevictor中文版副经理等职务。以第一或通讯作者发表SCI论文70余篇,包括Engineering Structures(3篇)、Composite structures(4篇)等领域顶级刊物论文32篇,其中,ESI高被引论文2篇;出版中、英文专著各1部(均为独著);主持国家自然科学基金项目3项、国家重点研发计划子课题2项及其余省部级项目7项。研究成果获2019年中国产学研合作创新成果一等奖(1/10)、2022年及2016年教育部高校科技进步二等奖(3/13)及2016年江苏省复合材料科技进步一等奖(2/10);参编全文强制性国家标准《木结构通用规范》GB55005-2021;入选江苏省杰青、江苏省“333 高层次人才培养工程”、“六大人才高峰”及江苏省“双创博士”等人才工程。担任国家自然科学基金评审专家,担任1946伟德国际源自英国始于1946学报(自然科学版)副主审及30余本期刊审稿人。
Ø 主要研究领域:
l 结构抗火设计
l 现代木结构
l 人工智能在土木工程中的应用
Ø 受教育经历
2002/09-2006/06,1946伟德国际源自英国始于1946,土木工程专业,工学学士;
2006/09-2009/06,1946伟德国际源自英国始于1946,防灾减灾工程及防护工程,工学硕士;
2009/09-2013/01,香港大学,结构工程,哲学博士(PhD)。
Ø 研究工作经历
2013/01 – 2013/12,香港大学,工程学院,高级研究员(Research Fellow);
2014/01 – 2014/06,1946伟德国际源自英国始于1946,伟德bevictor中文版,讲师;
2014/07– 2017/02,1946伟德国际源自英国始于1946,伟德bevictor中文版,副教授;
2017/03– 2018/11,1946伟德国际源自英国始于1946,伟德bevictor中文版,副教授,副经理;
2018/12– 2021/02,1946伟德国际源自英国始于1946,伟德bevictor中文版,教授,副经理;
2021/03 至今 ,1946伟德国际源自英国始于1946,科学研究院,教授,副处长。
Ø 承担的科研项目
项目名称、编号 | 项目来源 | 起止年月 | 负责内容 |
单层球面木网壳结构实际火灾全过程性能劣化机理及损伤智能识别(52378518) | 国家自然科学基金面上项目 | 2024.01-2027.12 | 主持 |
火灾下复合材料夹芯构件多尺度性能演化机理及安全评估研究(51678297) | 国家自然科学基金面上项目 | 2017.01-2020.12 | 主持 |
温度—荷载耦合作用下泡沫复合材料夹层结构界面剥离机理研究(51408305) | 国家自然科学基金青年基金项目 | 2015.01-2017.12 | 主持 |
大跨空间木结构建筑火灾损伤机理及性能化防火设计(BK20211536) | 江苏省杰出青年 基金 | 2021.07-2024.06 | 主持 |
******的研究(******) | 国家重点研发计划子课题 | 2023.06-2025.12 | 主持 |
纤维增强复合材料性能提升与建筑高效利用的结构设计理论及方法研究(2017YFC0703001) | 国家重点研发计划子课题 | 2016.01-2019.12 | 主持 |
Ø 科研成果与奖励
1、王璐,李凌志,赖勉亨,等(1/10). 服役混凝土结构损伤评估与加固修复的关键技术及应用. 中国产学研合作创新成果一等奖,2019.12;
2、陆伟东,王建国,王璐,等(3/18). 基于建筑—结构融通的现代木结构综合性能提升技术及应用,教育部高等学校科学研究优秀成果奖(科学技术)科学技术进步奖二等奖,2022.12;
3、刘伟庆,方海,王璐,等(3/13). 新型复合材料夹芯结构关键技术、产品研发及应用,教育部高等学校科学研究优秀成果奖(科学技术)科学技术进步奖二等奖,2016.12;
4、方海、王璐、刘伟庆,等(2/10). 格构增强复合材料夹芯结构关键技术创新及应用. 江苏省复合材料科技进步一等奖,2016.12.
Ø 代表性论著(按发表时间倒序)
[1] 王璐. 复合材料夹层结构理论、设计与应用[M]. 中国建筑工业出版社, 2019.
[2] Lu Wang. Post-Compressed Plates For Strengthening Reinforced Concrete Structures [M]. Tsinghua University Press, China, 2017.
[3] Lu Wang, Ray Kai Leung Su. Axial Behaviour of Post-Fire RC Columns Strengthened with Post-Compressed Steel Plates. Design, Fabrication and Economy of Metal Structures[M]. Springer, Berlin, Heidelberg, 2013. (A book Chapter).
Ø 代表性教材(按发表时间倒序)
[1] 王璐, 陈力, 柯世堂, 庄海洋, 徐锋, 齐玉军. 土木工程防灾减灾[M]. 科学出版社, 2020.
[2] 吕恒林, 李延和, 李海涛, 张勤, 张建, 朱虹, 周淑春, 王璐, 刘书奎, 丁北斗, 吴元周, 胡波. 土木工程结构检测鉴定与加固改造[M]. 中国建筑工业出版社, 2020.
Ø 代表性论文(按发表时间倒序)
1、结构抗火设计方向(10篇代表作)
[1] Yongwang Zhang, Wentao Zhi, Xiaofei Zhang, Weibin Ni, Chao Xu, Yiming Xu, Lu Wang*. Experimental and numerical study on the validity of the energy-based time equivalent method for evaluating the fire resistance of timber components exposed to travelling fires[J]. Journal of Building Engineering, 2023, 76, 107169. (SCI收录,Top期刊,JCR一区)
[2] Yongwang Zhang, Xiaofei Zhang, Lu Wang*. Experimental validation and simplified design of an energy-based time equivalent method applied to evaluate the fire resistance of the glulam exposed to parametric fire[J]. Engineering Structures, 2022.272, 115051. (SCI收录,JCR一区)
[3] Yongwang Zhang, Lu Wang*. Energy-based time equivalent method for evaluating the fire resistance of timber–concrete composite structures exposed to travelling fires[J]. Structure and Infrastructure Engineering, 2022. (SCI收录,JCR一区)
[4] Yongwang Zhang, Lu Wang*, Li Chen. Energy-based time equivalent approach for evaluating the fire resistance of timber components exposed to realistic design fire curves[J]. Structural Design of Tall and Special Buildings, 2021, 30(11), 1-14. (SCI收录,JCR一区)
[5] Lingfeng Zhang, Weiqing Liu*, Lu Wang*, Zhibin Ling. On-axis and off-axis compressive behavior of pultruded GFRP composites at elevated temperatures[J]. Composite Structures, 2020, 236: 111891. (ESI高被引论文, SCI收录,Top期刊,JCR一区)
[6] Jun Zhou, Lu Wang*. Repair of fire-damaged reinforced concrete members with axial load: a review[J]. Sustainability, 2019, 11(4), 963. (ESI高被引论文, SCI收录,JCR一区)
[7] Qi Wu, Fangyu Yang, Guoqing Sun, Weiqing Liu, Lu Wang*. Analytical method for determination of temperature-induced interfacial shear stress in foam-core composite sandwich materials[J]. Plastics, Rubber and Composites, 2018, 47(5): 232-239. (SCI收录,JCR三区)
[8] Xiankun Wang, Yali Ma, Weiqing Liu, Ruifeng Liang, Wang Lu*. Mode I interfacial fracture characterization of foam core sandwich materials at elevated temperatures[J]. Journal of Reinforced Plastics and Composites, 2017, 36(14): 1009-1018. (SCI收录,JCR二区)
[9] Lu Wang*, Xueming Fan, Hao Chen, Weiqing Liu. Axial crush behavior and energy absorption capability of foam-filled GFRP tubes under elevated and high temperature[J]. Composite Structures, 2016, 149: 339-350. (SCI收录,Top期刊,JCR一区)
[10] Lu Wang, Ray Kai Leung Su. Repair of fire-exposed preloaded RC rectangular columns by postcompressed steel plates[J]. Journal of Structural Engineering, ASCE, 2014, 140(3): 04013083. (SCI收录,JCR一区)
2、新材料结构方向(10篇代表作)
[1] Lu Wang, Yongwang Zhang, Johnny Ho, Mianheng Lai*. Fatigue behaviour of composite sandwich beams strengthened with GFRP stiffeners[J]. Engineering Structures, 2020, 214,110596. (SCI收录,Top期刊,JCR一区)
[2] Yun Zhang, Weiqing Liu, Chunxiang Yin, Yali Ma, Lu Wang*. Mode II interfacial fracture characterization of foam core sandwich materials at elevated temperatures: the effects of frictional stresses between the crack edges[J]. International Journal of Solids and Structures, 2020, 193-194: 28-38. (SCI收录,Top期刊,JCR一区)
[3] Lingfeng Zhang, Weiqing Liu*, Lu Wang*, Zhibin Ling. Mechanical behavior and damage monitoring of pultruted wood-cored GFRP sandwich components[J]. Composite structures, 2019, 215: 502-520. (SCI收录,Top期刊,JCR一区)
[4] Lu Wang*, Zhimin Wu, Weiqing Liu, Li Wan. Structural behavior of load-bearing sandwich wall panels with GFRP skins and a foam-web core[J]. Science and Engineering of Composite Materials, 2018, 25(1): 173-188. (SCI收录,JCR三区)
[5] Lu Wang*, Weiqing Liu, Yuan Fang, Li Wan, Ruili Huo. Axial crush behavior and energy absorption capability of foam-filled GFRP tubes manufactured through vacuum assisted resin infusion process[J]. Thin-walled Structures, 2016, 98: 263-273. (SCI收录,Top期刊,JCR一区)
[6] Yuan Fang, Kai Wang, David Hui, Fujun Xu, Weiqing Liu, Shulan Yang, Lu Wang*. Monitoring of seawater immersion degradation in glass fibre reinforced polymer composites using quantum dots[J]. Composites Part B: Engineering, 2017, 112: 93-102. (SCI收录,Top期刊,JCR一区)
[7] Lu Wang, Weiqing Liu*, Fai Fang, Li Wan. Behavior of sandwich wall panels with GFRP face sheets and a foam-GFRP web core loaded under four-point bending[J]. Journal of Composite Materials, 2015, 49: 2765-2778. (SCI收录,JCR二区)
[8] Lu Wang, Weiqing Liu*, Li Wan, Hai Fang, David Hui. Mechanical performance of foam-filled lattice composite panels in four-point bending: Experimental investigation and analytical modeling[J]. Composites Part B: Engineering, 2014, 67: 270-279. (SCI收录,Top期刊,JCR一区)
[9] Lu Wang, Weiqing Liu*, David Hui. Compression strength of hollow sandwich columns with GFRP skins and a paulownia wood core[J]. Composites Part B: Engineering, 2014, 60: 495-506. (SCI收录,Top期刊,JCR一区)
[10] Zhimin Wu, Weiqing Liu, Lu Wang*, Hai Fang, David Hui. Theoretical and experimental study of foam-filled lattice composite panels under quasi-static compression loading[J]. Composites Part B: Engineering, 2014, 60: 329-340. (SCI收录,Top期刊,JCR一区)
3、结构检测与加固方向(10篇代表作)
[1] Weibin Ni, Hongyu Sun, Lu Wang*, Yongwang Zhang, Xu Lu, Shaojie Wang. Estimation and analysis of the cumulative energy damage model for precast concrete nonrectangular column frame structures[J]. Structures, 2023, 03548. (SCI收录,JCR一区)
[2] L. Wang, J. Sun, T. Ding, Y. Liang, J.C.M. Ho, M.H. Lai*. Manufacture and behaviour of innovative 3D printed auxetic composite panels subjected to low-velocity impact load[J]. Structures, 2022, 38: 910-933. (SCI收录,JCR一区)
[3] Lu Wang, Ray Kai Leung Su*. Strengthening of preloaded RC columns by post compressed plates-A review[J]. Structural Engineering and Mechanics, 2018, 65(4): 477-490. (SCI收录,JCR一区)
[4] Lu Wang, Ray Kai Leung Su*, Bei Cheng, Lingzhi Li, Li Wan, Zhiwei Shan. Seismic behavior of preloaded rectangular RC columns strengthened with precambered steel plates under high axial load ratios[J]. Engineering Structures, 2017, 152: 683-697. (SCI收录,JCR一区)
[5] Ray Kai Leung Su*, Lu Wang. Flexural and axial strengthening of preloaded concrete columns under large eccentric loads by flat and precambered steel plates[J]. Structure and Infrastructure Engineering, 2015, 11(8): 1083-1101. (SCI收录,JCR一区)
[6] Lu Wang*, Jin Ou, Weiqing Liu, Shuguang Wang. Full-scale tests and analytical model of the Teflon- based lead rubber isolation bearings[J]. Structural Engineering and Mechanics, 2013, 48: 809-822. (SCI收录,JCR一区)
[7] Lu Wang, Ray Kai Leung Su*. Theoretical and experimental study of plate-strengthened concrete columns under eccentric compression loading[J]. Journal of Structural Engineering, ASCE, 2012, 139: 350-359. (SCI收录,JCR一区)
[8] Lu Wang, Ray Kai Leung Su. Experimental investigation of preloaded RC columns strengthened with precambered steel plates under eccentric compression loading[J]. Advances in Structural Engineering, 2012, 15: 1253-1264. (SCI收录,JCR二区)
[9] Lu Wang, Ray Kai Leung Su*. A unified design procedure for preloaded rectangular RC columns strengthened with post-compressed plates. Advances in Concrete Construction, 2013, 1(2): 163-185. (SCI收录,JCR三区)
[10] Ray Kai Leung Su*, Lu Wang. Axial strengthening of preloaded rectangular concrete columns by precambered steel plates[J]. Engineering Structures, 2012, 38: 42-52. (SCI收录,JCR一区)
Ø 招生专业
硕士研究生:结构工程,防灾减灾及防护工程,土木水利(专业学位)。
博士研究生:结构工程,防灾减灾及防护工程。
Ø 联系方式
Email:kevinlwang@njtech.edu.cn