王莹

职称:副研究员

通讯地址:福建省福州市福州大学城乌龙江北大道2号国家大学科技园阳光科技楼南802室

邮政编码:350108

Email:wangying763@outlook.com,wangying763@fzu.edu.cn

个人简介

王莹(Ying Wang),副研究员,博士,硕士生导师,福建省引进高层次人才(境外B类),美国加州注册工程师 (P.E.)


联系方式

地址:福建省福州市福州大学城乌龙江北大道2号国家大学科技园阳光科技楼南802室,350108

邮箱及手机号:wangying763@outlook.com,wangying763@fzu.edu.cn,18050131195

教育背景

 2011年8月—2014年12月 普渡大学 博士

 2010年7月—2011年8月 普渡大学 硕士

 2005年9月—2009年6月 中南大学 学士


研究兴趣

钢-混凝土组合结构(Steel-Concrete Composite Structure)

高强材料(High-Strength Materials)

超高性能混凝土(UHPC)

高层建筑设计和分析(Design and Analysis of High-Rise Buildings)

基于性能的抗震设计(Performance Based Seismic Design)


科研项目

国家自然科学基金委员会,青年科学基金项目,52308155,SC组合剪力墙新型锚固节点的受力机理和设计方法研究,2024-01至2026-12,在研,主持

方圆建设集团有限公司,0050/00502128,装配整体式空腔组合结构受力性能,2021-01至2022-02,结题,主持

福建省科学技术厅,青年创新项目,2020J05126,采用钢筋锚固式的SC组合剪力墙与RC基础锚固节点受力机理,2020-11至2023-11,结题,主持

福建省土木工程多灾害防治重点实验室,开放课题,20220601,高强/复合钢板-UHPC组合剪力墙轴压力学性能研究,2022-06至2023-06,结题,主持

福州大学,开放测试基金项目,2020T033,高强矩形钢管混凝土构件抗弯性能研究,2020-7至2021-6,结题,主持

福建省教育厅,中青年教师教育科研项目,JAT190045,高强矩形钢管混凝土构件抗弯性能研究,2019-12至2022-05,结题,主持

福州大学,引进人才科研启动项目,510708/GXRC-18082,高强双钢板-超高性能混凝土组合剪力墙受压性能研究,2018-11至2020-10,结题,主持

深圳大学,广东省滨海土木工程耐久性重点实验室开放基金项目,GDDCE 18-14,高强双钢板-超高性能混凝土组合剪力墙受压性能研究,2018-10至2020-10,结题,主持

国家自然科学基金委员会,面上项目,52178464,斜拉桥钻石型桥塔横向地震耗能机制及损伤控制,2022-01至2025-12,在研,参与

福建省科学技术厅,青年创新项目,2020J05127,建筑薄膜结构在台风作用下的随机振动研究,2020-11至2023-11,结题,参与

国家自然科学基金委员会,面上项目,51978170,面向核电站的新型复合钢板-UHPC组合剪力墙力学性能及设计方法研究,2020-01至2023-12,在研,参与

美国自然科学基金委员会,CMMI,1138673,RAPID:Investigation on the Performance of Buildings with Structural Walls in the Tohoku, Japan, Earthquake of 2011,2011-08至2013-07,结题,参与


社科教改项目

中华人民共和国教育部,全国教育科学“十四五”规划国家一般项目,BHA220123,少年科学高阶思维能力培养的国际经验与本土循证创新实践,2022-08至2025-09,在研,参与

福州大学本科教育教学研究项目,一般项目,工程管理专业《运筹学》课程思政探索与实践,2022-11至2024-10,在研,参与


工作经历

2018年9月—至今          助理研究员/副研究员        福州大学土木工程学院

2014年12月—2018年6月           高级工程师        WSP USA纽约办公室

2011年5月—2014年5月            研究助理          美国地震工程模拟网络(NEES)


工程项目节选

WSP Global 结构咨询公司 纽约市办公室  高级工程师

职能:高层建筑抗风抗震侧向系统的设计;钢筋/混凝土/钢混结构构件的设计和分析;高层建筑抗风抗震位移控制;基于性能的高层建筑抗震设计(Performance Based Design)。已做项目节选如下:

Reforma 432, Mexico City, Mexico

Reforma Fragua, Mexico City, Mexico

Edge 2, Brooklyn, NY, NY, USA

340 Flatbush Avenue, Brooklyn, NY, USA

Roma 54, Mexico City, Mexico

West 29th St, Manhattan, NY, USA

Miami River Phase II, Miami, FL, USA


代表性论文

期刊论文

Lai Z, Zhou W, Yang X*, Wang Y (2023). Flexural behavior of high-strength square concrete-filled steel tube members subjected to cyclic loadings. Structures. 58:105413. (SCI 三区)

Wang Y, Liao T, Zheng Z, Lai Z*, Zuo J, Dong C, Guo J (2023). Seismic behavior of an innovative assembled composite structural wall. Journal of Constructional Steel Research. 211:108152. (SCI 二区)

Guo J, Wang Y*, Hong Y, Chen J, Liu S (2023). Local buckling and axial compressive behavior of stainless-clad bimetallic steel-plate composite walls. Journal of Constructional Steel Research. 210:108056. (SCI 二区)

Lai Z, Yan J, Liu X, Li D*, Yang X, Wang Y (2023). High-strength rectangular concrete-filled steel tube long columns: parametric studies and design. Journal of Building Engineering. 75:107012. (SCI 二区)

Zhao G, Wang Y*, Zhu L, Zhao J (2023). Shear behavior of prestressed concrete T-beams strengthened by steel plate-concrete composite. Engineering Structures. 291:116440. (SCI 二区)

Wang Y, Liao T, Chi H, Lai Z, Qing J, Huang R* (2023). Damage behavior of concrete members subjected to underwater contact explosion. Engineering Failure Analysis. 151:107412 (SCI 二区)

Zhao X, Xiang W, Yang Y, Wang Y*, Tao J, Huang J, Zhao Q, Xiao F (2023). Flexural behavior of prefabricated RC bridge deck with different joint materials. Buildings. 13(6):1420. (SCI 三区)

Wen Y, Lai Z, Ma J, Liu H, Wang Y, Hui C, Huang R* (2023). A dynamic constitutive model for high-density rigid polyurethane foam subjected to impact loading. Construction and Building Materials. 387:131642. (SCI 一区)

Wen Y, Chi H, Lai Z, Song W, Wang Y, Qing J, Huang R* (2023). Experimental and numerical investigation on saturated concrete subjected to underwater contact explosion. Construction and Building Materials. 384:131465. (SCI 一区)

Lai Z, Han Y, Yang X*, Wang Y, Li Q (2023). Pull-out resistance of stud groups embedded in concrete. Structures. 47:1383-1395. (SCI 二区)

Lai Z, Zhou W, Wang Y, Huang P, Zhang C* (2023). Flexural behavior and design of rectangular ultra-high performance concrete-filled high-strength steel tube members. Engineering Structures. 286:116125. (SCI 二区)

Lai Z, Yan J, Wang Y*, Dong C, Weng X (2023). Axial behavior of high-strength square concrete-filled steel columns with embedded FRP tubes. Journal of Constructional Steel Research. 207:107955. (SCI 二区)

Guan M, Xiao J, Wang Y*, Zhang Y, Liang Z, Lai Z (2023). Seismic behavior of innovative precast hybrid steel reinforced concrete beam-column connections. Journal of Constructional Steel Research. 203:107817. (SCI 二区)

Zhao Q, Zhang H, Yang J, Yang X*, Wang Y, Lai Z (2023). Experimental and numerical studies on flexural behavior of fiber continuous joints of precast UHPC decks. Structural Concrete. 24(1):1328-1347. (SCI 三区)

Zhao Q, Zhang H, Yang J, Yang X*, Wang Y, Lai Z (2022). Experimental and numerical studies on flexural behavior of fiber continuous joints of precast UHPC decks. Structural Concrete. 24(1):1328-1347. (SCI 三区)

Lai Z, Han W, Wang Y*, Yang X, Huang W (2022). Shear behavior of high-strength square concrete filled steel tube members. Journal of Constructional Steel Research. 196:107423. (SCI 一区)

Chen W, Feng K, Wang Y*, Cui S*, Lin Y (2022). Seismic performance of a novel precast beam-column joint using smart composite SMA-ECC. Buildings. 12(9):1404. (SCI 三区)

Zhao Q, Huang J, Yang J, Wang Y*, He G, Lai Z (2022). Experimental study on the tensile behavior of UHPC fiber continuous joints. Structural Concrete. 23(1):207-219. (SCI 三区)

Guan M, Zheng X, Wang Y*, Xiao Q, Lai Z, Du H (2022). Seismic performance of innovative adaptive-slit composite 1 structural walls with ultra-high axial compression ratio. Bulletin of Earthquake Engineering. 20(2):1169-1192. (SCI 二区)

Wang Y, Lin H, Lai Z*, Li D, Zhou W, Yang X (2022). Flexural behavior of high-strength rectangular concrete-filled steel tube members. Journal of Structural Engineering 148(1): 04021230. (SCI 顶级期刊)

Zhu L, Wang Y*, Zhou G, Han B (2022) Structural health monitoring on a steel-concrete composite continuous bridge during construction and vehicle load tests. Mechanics of Advanced Materials and Structures. 29(10): 1370-1385. (SCI 二区)

Zhu L, Li T, Wang Y*, Tang Q, Wang G, Zhang Z (2021) Experimental and numerical study on T-shaped UHPFRC beams with high-strength reinforcement. Structural Concrete. 22(6):3630-3645. (SCI 三区)

Chen Y, Feng K, Wang Y*, Lin Y, Qian H (2021) Evaluation of self-healing performance of a smart composite material (SMA-ECC). Construction and Building Materials 290: 123216. (SCI 一区)

Yang Y, Varma A, Kreger M, Wang Y*, Zhang K (2021) Shear strength of reinforced concrete beams with T-headed bars for safety-related nuclear structures. Engineering Structures 230: 111705. (SCI 一区)

Guan M, Wang G, Wang Y*, Wei, C, Lai Z, Du H, Liu Z (2021) Bond behavior of square CFT using manufactured sand and recycled coarse aggregate. Construction and Building Materials 269: 121289. (SCI 一区)

Wang Y*, Pujol S (2020) Effects of longitudinal reinforcement discontinuities on the seismic response of structural walls. Bulletin of Earthquake Engineering 18(15):6735-6760. (SCI 二区)

Guan M, Wei C, Wang Y*, Lai Z, Xiao Q, Du H (2020) Experimental investigation of axial loaded circular steel tube short columns filled with manufactured sand concrete. Engineering Structures 221: 111033. (SCI 一区)

Li D, Lai Z*, Wang Y (2020) A non-contact method for estimating the pre-tension of a rectangular membrane structure. Insight - Non-Destructive Testing and Condition Monitoring 62(8):464-470. (SCI 四区)

Puranam A, Wang Y*, Pujol S (2018) Estimating drift capacity of reinforced concrete structural walls. ACI Structural Journal 115(6):1563-1574. (SCI 三区)

Wang Y, Villalobos E, Pujol S*, Al-Washali H, Suzuki K, Maeda M, Takahashi S, Ichinose T (2016) On the seismic response of the Faculty of Architecture and Engineering Building at Tohoku University. Earthquake Spectra 32(1):523-545. (SCI 三区)

会议论文

Wang, Y., and Pujol, S. (2014) “The capacity spectrum method: evaluation against the measured response of a nine-story structure.” 10th U.S. National Conference on Earthquake Engineering Frontiers of Earthquake Engineering, Anchorage, Alaska, USA. (国际会议)

Suzuki, K., Al-Washali, H., Maeda, M., Wang, Y., Pujol, S., Ichinose, T. (2013) “Performance of the building of the Faculty of Engineering at Tohoku University during the Great East Japan Earthquake of 2011.” 10th International Conference on Urban Earthquake Engineering, Tokyo Institute of Technology, Tokyo, Japan. (国际会议)

Kato, Y., Nagaya, A., Hotta, K., Wang, Y., Takahashi, S., Maeda, M., Pujol, S., Ichinose, T. (2013) “Damage of six-story RC building with coupling beams having aspect ratios larger than 2.0.” 10th International Conference on Urban Earthquake Engineering, Tokyo Institute of Technology, Tokyo, Japan. (国际会议)


代表性荣誉

2022.12,获福建省科学技术进步二等奖(悬索桥抗震及减震关键技术及应用),福建省人民政府,排名第五,证书号:2021-J-2-028-05。

代表性专利

王莹,马涛,赖志超,张超,双钢板混凝土组合剪力墙与RC基础锚固节点结构,2021,ZL2021210263390

王莹,廖天鱼,赖志超,双钢板混凝土组合剪力墙与RC基础的新型锚固节点结构,2022,ZL2022211480638

王莹,左俊波,赖志超,双钢板混凝土组合剪力墙与混凝土基础的新型锚固节点结构,2023,ZL202223115628.5

王莹,廖天鱼,赖志超,一种曲线滑轨可变阻尼隔震支座及其安装方法,2023,ZL202210531884.8

张超,傅光辉,赖志超,王莹,林志滔. 倾斜框架性能状态评估方法及系统,2023,ZL2021109268519.

赖志超,张超,许锦楷,周桢干,王莹,董桔灿. 适用于构件轴压试验的端部约束装置,2023,ZL202320589930X.

赖志超,黄俊文,王莹,张治齐,廖天鱼,张强,江浩楠. 面向海上风机基础的可装配漂浮式分级耗能防撞装置,2023,ZL2022231711279.


学术兼职

美国混凝土协会(ACI)会员

美国地震工程研究协会(EERI)会员

美国钢结构协会(AISC)会员

中国建筑协会抗震防灾分会会员


学术任职

Earthquake Spectra

Journal of Constructional Steel Research

Arabian Journal for Science and Engineering

Bulletin of Earthquake Engineering

Engineering Structures

Archives of Civil and Mechanical Engineering等期刊


指导研究生情况

已指导硕士研究生十余名,欢迎各位同学报考!


指导本科生情况

朱东城等,装配整体式空腔组合结构受力性能(27073),校级大学生创新训练项目,2021.05-2022.05,已结题

洪烨等,开孔双钢板混凝土组合剪力墙面外抗弯性能研究(S202210386060),省级大学生创新训练项目,2022.05-2024.05,进行中