个人简介
王福瑞,哲学博士,南京航空航天大学上岗副研究员。分别于2014年和2017年在大连理工大学机械工程学院获得工学学士与工学硕士学位。2018年1月赴美国休斯顿大学机械工程系留学,于2020年12月获得哲学博士学位。2021年3月入职南京航空航天大学机电学院,入选“长空学者(之星)”计划。主要研究方向为结构健康监测,尤其致力于空天结构螺栓紧固件损伤机理与智能诊断/监测研究。
工作经历:
2021.03-至今 上岗副研究员 南京航空航天大学
教育背景:
2018.01-2020.12 博 士 美国休斯顿大学
2014.09-2017.06 硕 士 大连理工大学
2010.09-2014.06 学 士 大连理工大学
获奖情况:
2020 英国物理学会(IOP)出版“中国高被引文章奖”
2019 Smart Materials and Structures 期刊年度高被引论文
近期论文
查看导师新发文章
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[1] Furui Wang, Yi-Lung Mo, Gangbing Song. Shear Loading Detection of Through-bolts in Bridge Structures Using A Percussion-based One-dimensional Memory-augmented Convolutional Neural Network. Computer-Aided Civil and Infrastructure Engineering. 2021, 36 289-301.
[2] Furui Wang, Zheng Chen, Gangbing Song. Smart crawfish: A concept of underwater multi-bolt looseness identification using entropy-enhanced active sensing and ensemble learning. Mechanical Systems and Signal Processing. 2021, 149 107186.
[3] Furui Wang, Gangbing Song. Bolt Looseness Detection by A New Impact-acoustic Method Using Multifractal Analysis and Gradient Boosting Decision Tree. Structural Health Monitoring. 2020, 19 2023-2032.
[4] Furui Wang, Gangbing Song. Monitoring of Multi-bolt Connection Looseness Using A Novel Vibro-acoustic Modulation Method. Nonlinear Dynamics. 2020, 100 243-254.
[5] Furui Wang, Zheng Chen, Gangbing Song. Monitoring of Multi-bolt Connection Looseness Using Entropy-based Active Sensing and Genetic Algorithm-based Least Square Support Vector Machine. Mechanical Systems and Signal Processing. 2020,136 106507 (ESI高被引).
[6] Furui Wang, Siu Chun Michael Ho, Gangbing Song. Monitoring of Early Looseness of Multi-Bolt Connection: A New Entropy-based Active Sensing Method Without Saturation. Smart Materials and Structures. 2019, 28 10LT01.
[7] Furui Wang, Siu Chun Michael Ho, Gangbing Song. Modeling and Analysis of An Impact-acoustic Method for Bolt Looseness Identification. Mechanical Systems and Signal Processing. 2019, 133 106249.
[8] Furui Wang, Gangbing Song. Bolt early looseness monitoring using modified vibro-acoustic modulation by time-reversal. Mechanical Systems and Signal Processing. 2019, 130 349-360. (ESI高被引)
[9] Furui Wang, Siu Chun Michael Ho, Linsheng Huo, Gangbing Song. A Novel Fractal Contact-Electromechanical Impedance Model for Quantitative Monitoring of Bolted Joint Looseness. IEEE Access. 2018, 6 40212-40220.
[10] Furui Wang, Linsheng Huo, Gangbing Song. A piezoelectric active sensing method for quantitative monitoring of bolt loosening using energy dissipation caused by tangential damping based on the fractal contact theory. Smart Materials and Structures. 2018, 27 015023. (ESI高被引)
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