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近年代表性论文:  

[1] Xiaonong Wang, Jingyu Huang. Study on Electromagnetic Relationship and Dynamic Characteristics of Superconducting Electrodynamic Maglev Train on Curved Track. [J]. IEEE Transactions On Intelligent Transportation Systems. (SCI, IF=9.551)

[2] Long Zhang, JingYu Huang. Dynamic interaction analysis of the high-speed maglev vehicle/guideway system based on a field measurement and model updating method, ENGINEERING STRUCTURES, An International Journal. ( SCI收录, IF=5.582)

[3] JingYu Huang, ZheWei Wu, Jin Shi, Yang Gao, DongZhou Wang, Influence of Track Irregularities in High-Speed Maglev Transportation Systems[J]. Smart Structure and Systems. (SCI 收录,IF=4.581)

[4] Long Zhang, JingYu Huang. Stiffnesses of coupling connection and bearing support for high- speed maglev guideways [J]. Journal of Bridge Engineering ( SCI收录, IF=3.385)

[5] Long Zhang, JingYu Huang. Thermal effect on dynamic performance of high-speed maglev train/guideway system, Structural Engineering and Mechanics, An International Journal. ( SCI收录, IF=2.998)

[6] Wang Xiaonong, Huang Jingyu. Research on Electromagnetic Relationship and Passive Electromagnetic Damping Characteristics of Superconducting Electrodynamic Maglev Train[J]. IEEE Transactions on Applied Superconductivity. ( SCI收录, IF=1.949)

[7] Qiang Cao, Jingyu Huang. Research on shear performance of corrugated steel plate shear walls with inelastic buckling of infilled plates under lateral loads[J]. Journal of Building Engineering. (SCI收录, IF=7.1)

[8] Qiang Cao, Jingyu Huang, Experimental Study and Numerical Simulation of Corrugated Steel Plate [J] Thin-Walled Structures ( SCI收录,IF=5.881)

[9] Qiang Cao, Jingyu Huang, Dongzhou Wang, Liang Zhao, Zhewei Wu. Research on Seismic Performance of Corrugated Steel Plate Shear Walls with Inelastic Buckling Subjected to Lateral Loads[J]. International Journal of Steel Structures. (SCI收录, IF=1.541)

[10] Wang Xiaonong, Huang Jingyu. Updating method of a high-speed maglev guideway model based on wavelet transform[J]. Journal of Southeast University (English Edition). (EI收录)

[11] 王小农,黄靖宇.超导电动磁浮列车悬浮和导向特性[J].同济大学学报(自然科学版). (EI收录)

[12] Jingyu Huang, Dongzhou Wang, Heng Chen, Long Zhang ,High-speed maglev train and track multi-channel synchronous testing system 2nd International Workshop on Structural Health Monitoring for Railway SystemEI 收录)

[13] Xi Deng , Jingyu Huang, Pan Tang ,Dongzhou Wang , Zhewei WuAnalysis of High-speed Maglev Vehicle-Guidway Force Based on Monitoring Data7th Asia-Pacific Workshop on Structural Health MonitoringEI收录)

[14] Wang Rusi, Huang Jingyu. Numerical investigation into characteristics of far-field aerodynamic noise radiated by inter-coach space of high-speed maglev trains (EI收录).

[15] Wang X, Huang J, Fang Z. Research on EDS Propulsion Characteristics of Superconducting High Speed Maglev Train[J]. Proceedings of the 5th International Conference on Electrical Engineering and Information Technologies for Rail Transportation (EITRT). (EI会议)

[16] FANG Z, HUANG J, WANG X, et al. Research on Model Updating Method of High-Speed Maglev Guideway Based on Wavelet Transform and Optimization Algorithm[J]. STRUCTURAL HEALTH MONITORING. (EI会议)

[17] Jingyu Huang, Long Zhang ,Dynamic Simulation and Analysis of the High-speed Maglev Train/guideway Interaction System, 8th International Symposium on Environmental Vibration and Transportation Geodynamics EI会议)

[18] Xiong Zhou, Jingyu Huang. Analysis of the Influence of Track Irregularity on Comfort Performance of Maglev Train Based on Site Monitoring, Lecture Notes in Electrical Engineering. (EI会议)

 

近年专利申请:
 

[1] 一种防脱落的常导高速磁浮轨道梁的施工方法,202210804616.9,发明专利

[2]一种提高磁浮线路桥墩结构强度的方法,202210805222.5,发明专利

[3]一种基于泡沫铝板的隧道降噪方法,202210805221.0,发明专利

[4]一种应用于磁浮的预应力混凝土桥墩,ZL 2022 2 1760222.X,实用新型专利

[5]基于有机材料润滑板的常导高速磁浮轨道梁防脱落装置,ZL 2022 2 1758462.6,实用新型专利

[6]一种基于泡沫铝板的具有降噪功能的隧道结构,ZL 2022 2 1730230.4,实用新型专利



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