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Guobiao Hu
Guobiao Hu
HKUST(GZ), NTU, UoA, ECP
在 hkust-gz.edu.cn 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Hybrid wind energy scavenging by coupling vortex-induced vibrations and galloping
J Wang, S Gu, C Zhang, G Hu, G Chen, K Yang, H Li, Y Lai, G Litak, ...
Energy Conversion and Management 213, 112835, 2020
1852020
Metamaterial beam with graded local resonators for broadband vibration suppression
G Hu, ACM Austin, V Sorokin, L Tang
Mechanical Systems and Signal Processing 146, 106982, 2021
1612021
Metastructure with piezoelectric element for simultaneous vibration suppression and energy harvesting
G Hu, L Tang, A Banerjee, R Das
Journal of Vibration and Acoustics 139 (1), 011012, 2017
1242017
Analysis and prediction of printable bridge length in fused deposition modelling based on back propagation neural network
J Jiang, G Hu*, X Li, X Xu, P Zheng, J Stringer
Virtual and Physical Prototyping 14 (3), 253-266, 2019
1202019
On the use of metasurface for vortex-induced vibration suppression or energy harvesting
J Wang, S Sun, L Tang, G Hu*, J Liang
Energy Conversion and Management 235, 113991, 2021
1182021
Internally coupled metamaterial beam for simultaneous vibration suppression and low frequency energy harvesting
G Hu, L Tang, R Das
Journal of Applied Physics 123 (5), 055107, 2018
1062018
Acoustic metamaterials with coupled local resonators for broadband vibration suppression
G Hu, L Tang, R Das, S Gao, H Liu
AIP Advances 7 (2), 2017
992017
A two-degree-of-freedom piezoelectric energy harvester with stoppers for achieving enhanced performance
G Hu, L Tang, R Das, P Marzocca
International Journal of Mechanical Sciences 149, 500-507, 2018
922018
Effect of support on printed properties in fused deposition modelling processes
J Jiang, J Lou, G Hu
Virtual and Physical Prototyping 14 (4), 308-315, 2019
912019
A cross-coupled dual-beam for multi-directional energy harvesting from vortex induced vibrations
J Wang#, G Hu#, Z Su, G Li, W Zhao, L Tang, L Zhao
Smart Materials and Structures 28 (12), 12LT02, 2019
902019
A comb-like beam based piezoelectric system for galloping energy harvesting
G Hu, J Wang, L Tang
Mechanical Systems and Signal Processing, 2021
892021
Equivalent circuit representation of a vortexinduced vibrationbased energy harvester using a semiempirical lumped parameter approach
J Wang, L Tang, L Zhao, G Hu, R Song, K Xu
International Journal of Energy Research 44 (6), 4516-4528, 2020
872020
Acoustic-elastic metamaterials and phononic crystals for energy harvesting: A review
G Hu, L Tang, J Liang, C Lan, R Das
Smart Materials and Structures 30 (8), 085025, 2021
862021
Perspectives in flow-induced vibration energy harvesting
J Wang, D Yurchenko, G Hu*, L Zhao, L Tang, Y Yang
Applied Physics Letters 119 (10), 100502, 2021
782021
Metamaterial with local resonators coupled by negative stiffness springs for enhanced vibration suppression
G Hu, L Tang, J Xu, C Lan, R Das
Journal of Applied Mechanics 86 (8), 081009, 2019
562019
On the modelling of membrane-coupled Helmholtz resonator and its application in acoustic metamaterial system
G Hu, L Tang, X Cui
Mechanical Systems and Signal Processing 132, 595-608, 2019
542019
Towards real-time self-powered sensing with ample redundant charges by a piezostack-based frequency-converted generator from human motions
Z Li, X Peng, G Hu, D Zhang, Z Xu, Y Peng, S Xie
Energy conversion and management 258, 115466, 2022
512022
Exploring the potential benefits of using metasurface for galloping energy harvesting
J Wang, S Sun, G Hu*, Y Yang, L Tang, P Li, G Zhang
Energy Conversion and Management 243, 114414, 2021
512021
Achieve frequency-self-tracking energy harvesting using a passively adaptive cantilever beam
C Lan, Z Chen, G Hu, Y Liao, W Qin
Mechanical Systems and Signal Processing 156, 107672, 2021
432021
Design of graded piezoelectric metamaterial beam with spatial variation of electrodes
Y Jian, L Tang*, G Hu*, Z Li, KC Aw
International Journal of Mechanical Sciences 218, 107068, 2022
352022
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