研究成果 - 马 富银
Paper Name | Author | Publication/Completion Time | Magazine Name |
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A low-frequency pure metal metamaterial absorber with continuously tunable stifiness | Xingzhong Wang, Shiteng Rui, Shaokun Yang, Weiquan Zhang* and Fuyin Ma* | 2024-07-15 | Applied Mathematics and Mechanics (English Edition) |
Laminated acoustic metamaterials for low-frequency broadband ultra-strong sound insulation | Hongxing Li, Zhengqing Tang, Gang Zuo, and Fuyin Ma* | 2024-06-29 | Thin–Walled Structures |
Tunable acoustic vortex generation by a compact rotating disk | Rui Li, Chunxia Liu, Linbo Wang, Chengzhi Ma, Jiu hui Wu* and Fuyin Ma* | 2024-06-13 | Communications Physics |
Bionic noise reduction design of axial fan impeller | Yulong Sun#, Rui Li#, Linbo Wang, Chongrui Liu, Zhibo Yang, and Fuyin Ma* | 2024-06-04 | Journal of Physics D: Applied Physics |
Realizing topological edge states in graphenelike elastic metamaterials | Zhen Huang#, Penglin Gao#, Federico N. Ramirez, Jorge García-Tiscar, Alberto Broach, Jiu Hui Wu*, Fuyin Ma*, and José Sánchez-Dehesa* | 2024-05-07 | Physical Review Applied |
Topological transmission in Suzuki-phase sonic crystals | Zhen Huang, Francisco Cervera, Jiu Hui Wu*, Martin Ibarias, Chongrui Liu, Victor M. García-Chocano, Fuyin Ma*, and José Sánchez-Dehesa* | 2024-05-02 | Physical Review Applied |
A multi-band elastic metamaterial for low-frequency multi-polarization vibration absorption | Shiteng Rui, Weiquan Zhang*, Rihuan Yu, Xingzhong Wang, and Fuyin Ma* | 2024-04-29 | Mechanical Systems and Signal Processing |
Ultra-thin ventilated metasurface pipeline coating for broadband noise reduction | Yuze Liu, Weiquan Zhang, Guangming Cao, Gang Zuo, Chongrui Liu, and Fuyin Ma* | 2024-04-28 | Thin-Walled Structures |
A multifunctional metastructure with energy dissipation and low-frequency sound-absorption optimized for decoupling by genetic algorithm | Yao Huang, Chongrui Liu, Wei Li, Xiaoli Liu, Jiu Hui Wu*, and Fuyin Ma* | 2024-03-19 | Thin-Walled Structures |
An acoustic compound eye for omnidirectional broadband signal enhancement | Hao Zhang, Linbo Wang, Pengyu Du, Zhibo Yang, and Fuyin Ma* | 2024-03-07 | International Journal of Mechanical Sciences |
Multi-scale material/structure integrated elastic metamaterial for broadband vibration absorbing | Xingzhong Wang, Chao Zhang, Shiteng Rui, Chengjun Wu, Weiquan Zhang* , and Fuyin Ma* | 2024-01-31 | Materials & Design |
Multiple blast resistance enhancement through negative-mass meta-honeycombs with multi-resonator | Yao Huang, Jiu Hui Wu, Shao Kun Yang, Li Bo Wang, and Fuyin Ma | 2024-01-04 | Composite Structures |
A Nautilus bionic multi-information fusion compressed-sensing acoustic imaging device | Linbo Wang, Wei Li, Zhen Huang, Tianxi Jiang*, and Fuyin Ma* | 2023-12-12 | Cell Reports Physical Science |
Ultra-broadband acoustic absorption with inhomogeneous high-order Fabry–Pérot resonances | Chongrui Liu, Zhengrui Yang, Xiaoli Liu, Jiu Hui Wu, and Fuyin Ma | 2023-10-03 | APL Materials |
A thin-walled mesoscopic hybrid slit-resonator metamaterial absorber | Fuyin Ma*, Chongrui Liu, Yang Li, Jiu Hui Wu | 2023-09-22 | Thin-Walled Structures |
A wideband acoustic cloak based on radar cross section reduction and sound absorption | Hao Zhang , Jin He , Chongrui Liu*, Fuyin Ma* | 2023-09-13 | Applied Acoustics |
Ultrathin space-shift phase-coherent cancellation metasurface for broadband sound absorption | Fuyin Ma*, Hao Zhang, Xingzhong Wang, Chongrui Liu*, and Jiu Hui Wu | 2023-09-04 | Small Methods |
An integrated load-bearing and vibration-isolation supporter with decorated metamaterial absorbers | Rihuan Yu, Shiteng Rui, Xingzhong Wang*, Fuyin Ma* | 2023-04-20 | International Journal of Mechanical Sciences |
A dual-gradient underwater meta-auricle for broadband sound signal enhancement | Fuyin Ma*, Linbo Wang, Hao Zhang, Zhen Huang, Pengyu Du, Jiu Hui Wu | 2023-04-03 | Applied Acoustics |
A tunable sub-wavelength acoustic imaging planar metalens | Gang Zuo, Zhen Huang, and Fuyin Ma* | 2023-03-09 | Journal of Physics D: Applied Physics |
Patent Name | Application Number | xjtu.gr.patent.type | Application Date |
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一种可调式亚波长声成像超透镜 | CN202111229455.7 | Invention | 2021.10.21 |
一种振子-颗粒多尺度协同耦合宽带阻尼吸振装置 | CN202111223308.9 | Invention | 2021.10.20 |
一种高折射率平板声聚焦透镜及聚能装置 | CN202111223315.9 | Invention | 2021.10.20 |
一种全向宽带声聚能装置 | CN202111221896.2 | Invention | 2021.10.20 |
一种具有宽带吸声性能的亚波长多狭缝吸声超结构 | CN202111221917.0 | Invention | 2021.10.20 |
一种通过软材料增强低频宽带吸声性能的方法 | ZL202111217728.6 | Invention | 2021.10.19 |
一种多单元协同耦合低频宽带吸振装置 | CN202111216484.X | Invention | 2020.10.19 |
一种基于声学带隙的低频阻尼减振方法 | ZL201910448015.7 | Invention | 2019.05.27 |
一种任意曲面形状薄壳型声学超结构设计方法 | ZL201910447231.X | Invention | 2019.05.27 |
一种任意形状迷宫型低频吸声装置设计方法 | CN201910447233.9 | Invention | 2019.05.27 |
一种通过涂料改性的声学超结构设计方法 | CN201910448023.1 | Invention | 2019.05.27 |
一种多元胞协同耦合声学超材料结构设计方法 | CN201811619594.9 | Invention | 2018.12.28 |
一种协同耦合双层薄板型声学超表面装置 | CN201811614387.4 | Invention | 2018.12.27 |
内置穿孔板式亥姆霍兹共振器及基于其的低频宽带吸声结构 | CN201811528044.6 | Invention | 2018.12.13 |
耳蜗及耳蜗毛细胞仿生声学超材料设计方法 | ZL201410336236.2 | Invention | 2014.07.15 |
一种弹性薄膜型低频隔声超材料结构 | CN201410235512.6 | Invention | 2014.05.29 |