Publications

代表性独立通讯文章:

 

  1. Liu YF, Xin FX*. Shape dynamics of capsules in two phase-shifted orthogonal ultrasonic standing waves: A numerical investigation. Journal of Fluid Mechanics, 2023, 964: A18:1-29.
  2. Liu YF, Xin FX*. Controlled mean dynamics of red blood cells by two orthogonal ultrasonic standing waves. Journal of Fluid Mechanics, 2024, 979: A11:1-33.
  3. Liu XW, Liu ML, Xin FX*. Sound absorption of a perforated panel backed with perforated porous material: Energy dissipation of Helmholtz resonator cavity. Mechanical Systems and Signal Processing, 2023, 185: 109762:1-14.
  4. Zhang WT, Liu XW, Xin FX*. Normal incidence sound absorption of an acoustic labyrinthine metal-fibers-based porous metamaterial at high temperature. International Journal of Mechanical Sciences, 2023, 237: 107821:1-10.
  5. Liu YF, Xin FX*. Nonlinear large deformation of a spherical red blood cell induced by ultrasonic standing waves. Biomechanics and Modeling in Mechanobiology, 2022, 21: 589-604.
  6. Liu YF, Xin FX*. Characterization of red blood cell deformability induced by acoustic radiation force. Microfluidics and Nanofluidics, 2022, 26: 7:1-12.
  7. Ke LW, Xu ZM, Liu YF, Xin FX*. Time-dependent deformation of biological tissue under ultrasonic irradiation. International Journal of Mechanical Sciences, 2022, 227: 107432: 1-8.
  8. Zhang L, Zhang WT, Xin FX*. Sound absorption of two-dimensional rough tube porous materials. Physics of Fluids, 2022, 34(8): 083612:1-12. [PoF主编遴选Featured article].
  9. Zhang L, Xin FX*. Perfect low-frequency sound absorption of rough neck embedded Helmholtz resonators. Journal of the Acoustical Society of America, 2022, 151(2): 1191-1199.
  10. Xin FX*, Lu TJ. Acousto-thermo-mechanical deformation of hydrogels coupled with chemical diffusion. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2018, 474(2217): 20180293:1-17.
  11. Xin FX*. Signal response of rib-stiffened plates covered by decoupling coating layers. Journal of Sound and Vibration, 2015, 348: 206-223.
  12. Xin FX*, Ma XW, Liu XW, Zhang Ch. A multiscale theoretical approach for the sound absorption of slit-perforated double porosity materials. Composite Structures, 2019, 223: 110919:1-12.
  13. Xin FX*. An exact elasticity model for rib-stiffened plates covered by decoupling acoustic coating layers. Composite Structures, 2015, 119(1): 559-567.
  14. Liu XW, Yu CL, Xin FX*. Gradually perforated porous materials backed with Helmholtz resonant cavity for broadband low-frequency sound absorption. Composite Structures, 2021, 263: 113647:1-9.
  15. Liu XW, Ma XW, Yu CL, Xin FX*. Sound absorption of porous materials perforated with holes having gradually varying radii. Aerospace Science and Technology, 2022, 120: 107229:1-16.
  16. Gong JQ, Xin FX*. External mean flow effect on sound transmission through composite sandwich structures filled with porous materials. Applied Mathematical Modelling, 2022,101: 729-747.
  17. Liu YF, Xin FX*. Nonlinear deformation and bifurcation of a soft cantilever induced by acoustic radiation force. Europhysics letters, 2019, 127(2): 24003:p1-p7.
  18. Zhou XD, Duan MY, Xin FX*. Low-frequency underwater sound absorption of hybrid metasurface using dissipative slow-sound. Physics Letters A, 2022, 450: 128361:1-6.
  19. Liu XW, Duan MY, Liu ML, Xin FX*, Zhang Ch.. Acoustic labyrinthine porous metamaterials for subwavelength low-frequency sound absorption. Journal of Applied Physics, 2021, 129: 195103:1-8.
  20. Liu YF, Xin FX*. Deformation dynamics of spherical red blood cells in viscous fluid driven by ultrasound. Physics of Fluids, 2023, 35(1): 012011:1-13.
  21. Zhang WT, Liu XW, Xin FX*. Sound absorption performance of helically perforated porous metamaterials at high temperature. Materials & Design, 2023, 225: 111437:1-10.
  22. Liu YF, Xin FX*. Mechanics of biconcave red blood cells deformed by acoustic tweezers. Mechanics of Materials, 2023, 178: 104565: 1-11.
  23. Liu YF, Xin FX*. Modeling of red blood cell deformation in a microchannel driven by traveling surface acoustic waves. International Journal of Solids and Structures, 2023, 267: 112141:1-13.
  24. Zhang L, Zhang WT, Xin FX*. Broadband low-frequency sound absorption of honeycomb sandwich panels with rough embedded necks. Mechanical Systems and Signal Processing, 2023, 196: 110311:1-12.
  25. Zhou XD, Wang XC, Xin FX*. Ultrathin acoustic metamaterial as super absorber for broadband low-frequency underwater sound. Scientific Reports, 2023, 13: 7983:1-10.
  26. Zhang WT, Xin FX*. Coiled-up structure with porous material lining for enhanced sound absorption. International Journal of Mechanical Sciences, 2023, 256:108480:1-13.
  27. Liu YF, Xin FX*. Deformation of nucleated cells driven by ultrasonic standing waves. Mechanics of Materials, 2023, 186: 104805:1-10.
  28. Zhang WT, Xin FX*. Broadband low-frequency sound absorption via Helmholtz resonators with porous material lining. Journal of Sound and Vibration, 2024, 578: 118330:1-14.
  29. Wang XC, Yu CL, Xin FX*. Tunable acoustic metamaterial for broadband low-frequency sound absorption by continuous acoustic impedance manipulation. Journal of Vibration and Control, 2024, in press.
  30. Gong JQ, Zhang Ch. Xin FX*. Aerothermoelastic flutter analysis of variable angle tow composite laminated plates in supersonic flow. Applied Mathematical Modelling, 2024, 130: 119-139.

 

期刊文章:

 

2024

  1. Liu YF, Xin FX*. Controlled mean dynamics of red blood cells by two orthogonal ultrasonic standing waves. Journal of Fluid Mechanics, 2024, 979: A11:1-33.
  2. Liu ML, Wang XC, Xin FX*. Sound absorption of acoustic resonant absorbers with rough oblique perforations. Applied Acoustics, 2024, 217:109828:1-8.
  3. Yu CL, Chen X, Duan MY, Li MX, Wang XC, Mao YJ, Zhao LW, Xin FX*, Lu TJ*. Adjustable sound absorbing metastructures for low-frequency variable discrete sources. International Journal of Mechanical Sciences, 2024, 267: 108965:1-12.
  4. Zhang WT, Xin FX*. Broadband low-frequency sound absorption via Helmholtz resonators with porous material lining. Journal of Sound and Vibration, 2024, 578: 118330:1-14.
  5. Wang XC, Yu CL, Xin FX*. Tunable acoustic metamaterial for broadband low-frequency sound absorption by continuous acoustic impedance manipulation. Journal of Vibration and Control, 2024, in press.
  6. Gong JQ, Zhang Ch. Xin FX*. Aerothermoelastic flutter analysis of variable angle tow composite laminated plates in supersonic flow. Applied Mathematical Modelling, 2024, 130: 119-139.
  7. Yu CL, Duan MY, Ti F, Xin FX, Zhao GP, Lu TJ, Yu RP, Li MX*, Chen X*. Dual-scale spiral material for balancing high load bearing and sound absorption. Advanced Science, 2024, 11: 2400250:1-12.

 

 

2023

  1. Liu XW, Liu ML, Xin FX*. Sound absorption of a perforated panel backed with perforated porous material: Energy dissipation of Helmholtz resonator cavity. Mechanical Systems and Signal Processing, 2023, 185: 109762:1-14.
  2. Zhang WT, Liu XW, Xin FX*. Normal incidence sound absorption of an acoustic labyrinthine metal-fibers-based porous metamaterial at high temperature. International Journal of Mechanical Sciences, 2023, 237: 107821:1-10.
  3. Liu YF, Xin FX*. Deformation dynamics of spherical red blood cells in viscous fluid driven by ultrasound. Physics of Fluids, 2023, 35(1): 012011:1-13.
  4. Zhang WT, Liu XW, Xin FX*. Sound absorption performance of helically perforated porous metamaterials at high temperature. Materials & Design, 2023, 225: 111437:1-10.
  5. Duan MY, Yu CL, Xin FX*, Lu TJ*. Deep subwavelength hybrid metamaterial for low-frequency underwater sound absorption by quasi-Helmholtz resonance. AIP Advances, 2023, 13(2): 025352:1-9. [AIP主编遴选Editor's Pick].
  6. Liu YF, Xin FX*. Mechanics of biconcave red blood cells deformed by acoustic tweezers. Mechanics of Materials, 2023, 178: 104565: 1-11.
  7. Liu YF, Xin FX*. Modeling of red blood cell deformation in a microchannel driven by traveling surface acoustic waves. International Journal of Solids and Structures, 2023, 267: 112141:1-13.
  8. Zhang L, Zhang WT, Xin FX*. Broadband low-frequency sound absorption of honeycomb sandwich panels with rough embedded necks. Mechanical Systems and Signal Processing, 2023, 196: 110311:1-12.
  9. Liu YF, Xin FX*. Shape dynamics of capsules in two phase-shifted orthogonal ultrasonic standing waves: A numerical investigation. Journal of Fluid Mechanics, 2023, 964: A18:1-29.
  10. Zhou XD, Wang XC, Xin FX*. Ultrathin acoustic metamaterial as super absorber for broadband low-frequency underwater sound. Scientific Reports, 2023, 13: 7983:1-10.
  11. Zhang WT, Xin FX*. Coiled-up structure with porous material lining for enhanced sound absorption. International Journal of Mechanical Sciences, 2023, 256:108480:1-13.
  12. Liu YF, Xin FX*. Deformation of nucleated cells driven by ultrasonic standing waves. Mechanics of Materials, 2023, 186: 104805:1-10.

 

2022

  1. Liu YF, Xin FX*. Nonlinear large deformation of a spherical red blood cell induced by ultrasonic standing waves. Biomechanics and Modeling in Mechanobiology, 2022, 21: 589-604.
  2. Liu YF, Xin FX*. Characterization of red blood cell deformability induced by acoustic radiation force. Microfluidics and Nanofluidics, 2022, 26(1): 7:1-12.
  3. Ke LW, Xu ZM, Liu YF, Xin FX*. Time-dependent deformation of biological tissue under ultrasonic irradiation. International Journal of Mechanical Sciences, 2022, 227: 107432: 1-8.
  4. Zhang L, Xin FX*. Perfect low-frequency sound absorption of rough neck embedded Helmholtz resonators. Journal of the Acoustical Society of America, 2022, 151(2): 1191-1199.
  5. Gong JQ, Xin FX*. External mean flow effect on sound transmission through composite sandwich structures filled with porous materials. Applied Mathematical Modelling, 2022,101: 729-747.
  6. Liu XW, Ma XW, Yu CL, Xin FX*. Sound absorption of porous materials perforated with holes having gradually varying radii. Aerospace Science and Technology, 2022, 120: 107229:1-16.
  7. Zhang L, Zhang WT, Xin FX*. Sound absorption of two-dimensional rough tube porous materials. Physics of Fluids, 2022, 34(8): 083612:1-12. [PoF主编遴选Featured article].
  8. Zhou XD, Duan MY, Xin FX*. Low-frequency underwater sound absorption of hybrid metasurface using dissipative slow-sound. Physics Letters A, 2022, 450: 128361:1-6.
  9. He W, Peng XJ, Xin FX*, Lu TJ*. Ultralight micro-perforated sandwich panel with hierarchical honeycomb core for sound absorption. Journal of Sandwich Structures & Materials, 2022, 24(1): 201-217.
  10. Junzhe Zhang, Tianning Chen*, Fengxian Xin, Jian Zhu*, Wei Ding. New-parallel connection of the Helmholtz resonator with embedded apertures for low-frequency broadband sound absorption. Japanese Journal of Applied Physics, 2022, 61: 077001:1-7.
  11. He W, Peng XJ, Xin FX*, Lu TJ*. A microstructure-based model of transport parameters and sound absorption for woven fabrics. Composites Science and Technology, 2022, 227:109607:1-10.
  12. Xiangjun Peng, Yifan Liu, Wei He, Ethan D. Hoppe, Lihong Zhou, Fengxian Xin, Elizabeth Haswell, Barbara G. Pickard, Guy M. Genin* and Tian Jian Lu*. Acoustic radiation force on a long cylinder, and potential sound transduction by tomato trichomes. Biophysical Journal, 2022, 121: 3917-3926.
  13. Yu CL, Duan MY, He W, Chen X, Xin FX*, Lu TJ*. Grating-like anechoic layer embedded with an air layer for broadband underwater sound absorption. International Journal of Mechanical System Dynamics, 2022, 2: 265-277. [芮院士主编特邀文章]
  14. Liu XW, Xin FX*, Zhang Ch*. Erratum: “High-temperature effect on the sound absorption of cylindrically perforated porous materials” [J. Appl. Phys. 130, 105101 (2021)]. Journal of Applied Physics, 2022, 132(12): 129902.

 

2021

  1. Liu XW, Yu CL, Xin FX*. Gradually perforated porous materials backed with Helmholtz resonant cavity for broadband low-frequency sound absorption. Composite Structures, 2021, 263: 113647:1-9.
  2. Duan MY, Yu CL, Xin FX*, Lu TJ*. Tunable underwater acoustic metamaterials via quasi-Helmholtz resonance: from low-frequency to ultra-broadband. Applied Physics Letters, 2021, 118: 071904:1-6.
  3. He W, Peng XJ, Chen X, Xin FX*, Lu TJ. 3D mechanical analysis of a self-contractile cell with stress fibers reorganization. Applied Mathematical Modelling, 2021, 92: 710-718.
  4. Peng XJ, He W, Xin FX, Genin Guy M.*, Lu TJ*. Effects of coating on dynamic stress concentration in fiber reinforced composites. International Journal of Solids and Structures, 2021, 222-223: 111029: 1-14.
  5. Liu XW, Duan MY, Liu ML, Xin FX*, Zhang Ch.. Acoustic labyrinthine porous metamaterials for subwavelength low-frequency sound absorption. Journal of Applied Physics, 2021, 129: 195103:1-8.
  6. Lei Jiechao, Xu ZM, Xin FX, Lu TJ*. Dynamics of capillary flow in an undulated tube. Physics of Fluids, 2021, 33(5): 052109: 1-9.
  7. Yu CL, Duan MY, He W, Xin FX*, Lu TJ*. Underwater anechoic layer with parallel metallic plate insertions: theoretical modelling. Journal of Micromechanics and Microengineering, 2021, 31: 074002: 1-11.
  8. Qihang Liu; Xuewei Liu, Chuanzeng Zhang*, Fengxian Xin. High-temperature and low-frequency acoustic energy absorption by a novel porous metamaterial structure. Acta Mechanica Solida Sinica, 2021, 34(4):1-12.
  9. He W, Liu ML, Peng XJ, Xin FX*, Lu TJ*. Sound absorption of petal shaped micro-channel porous materials. Physics of Fluids, 2021, 33: 063606:1-8.
  10. Qihang Liu, Xuewei Liu, Chuanzeng Zhang*, Fengxian Xin. A novel multiscale porous composite structure for sound absorption enhancement. Composite Structures, 2021, 276: 114456: 1-16.
  11. Kang R, Xin FX, Shen C*, Lu TJ*. 3D free vibration analysis of functionally graded plates with arbitrary boundary conditions in thermal environment. Advanced Engineering Materials, 2021, 2100636: 1-16.
  12. Liu XW, Xin FX*, Zhang Ch*. High-temperature effect on the sound absorption of cylindrically perforated porous materials. Journal of Applied Physics, 2021, 130(10): 105101:1-11.
  13. Duan MY, Yu CL, He W, Xin FX*, Lu TJ*. Perfect sound absorption of Helmholtz resonators with embedded channels in petal shape. Journal of Applied Physics, 2021, 130(13): 135102:1-8.

 

2020

  1. Tang YF, He W, Xin FX*, Lu TJ*. Nonlinear sound absorption of ultralight hybrid-cored sandwich panels. Mechanical Systems and Signal Processing, 2020, 135:106428:1-11.
  2. Xu ZM, He W, Peng XJ, Xin FX*, Lu TJ. Sound absorption theory for micro-perforated panel with petal-shaped perforations. Journal of the Acoustical Society of America, 2020, 148(1):18-24.
  3. Peng XJ, He W, Xin FX*, Genin Guy M., Lu TJ*. The acoustic radiation force of a focused ultrasound beam on a suspended eukaryotic cell. Ultrasonics, 2020, 108: 106205: 1-10.
  4. Xu ZM, He W, Xin FX*, Lu TJ*. Sound propagation in porous materials containing rough tubes. Physics of Fluids, 2020, 32(9):093604:1-9. [PoF主编遴选Editor's Pick].
  5. Peng XJ, He W, Xin FX, Guy M. Genin*, Lu TJ*. Standing surface acoustic waves, and the mechanics of acoustic tweezer manipulation of eukaryotic cells. Journal of the Mechanics and Physics of Solids, 2020, 145:104134:1-14.
  6. Duan MY, Yu CL, Xu ZM, Xin FX*, Lu TJ*. Acoustic impedance regulation of Helmholtz resonators for perfect sound absorption via roughened embedded necks. Applied Physics Letters, 2020, 117(15): 151904:1-5.

 

2019

  1. S. W. Ren*, L. Van Belle, C. Claeys, F. X. Xin*, T. J. Lu*, E. Deckers, W. Desmet. Improvement of the sound absorption of flexible micro-perforated panels by local resonances. Mechanical Systems and Signal Processing, 2019, 117: 138-156.
  2. Xu ZM, Song SY, Xin FX*, Lu TJ*. Mathematical modeling of Stokes flow in petal shaped pipes. Physics of Fluids, 2019, 31(1): 013602: 1-9. [PoF主编遴选Featured article].
  3. Meng H., Galland M.A.*, Ichchou M.*, Xin F.X., and Lu T.J. On the low frequency acoustic properties of novel multifunctional honeycomb sandwich panels with micro-perforated faceplates. Applied Acoustics, 2019, 152:31-40.
  4. Xu ZM, Peng XJ, Liu XW, Xin FX*, Lu TJ*. Modified theory of a microperforated panel with roughened perforations. Europhysics Letters, 2019, 125: 34004:p1-p6.
  5. Ye CZ, Liu XW, Xin FX*, Lu TJ. Underwater acoustic absorption of composite anechoic layers with inner holes. Journal of Vibration and Acoustics-ASME, 2019, 141(4):041006:1-9.
  6. Liu YF, Xin FX*. Nonlinear deformation and bifurcation of a soft cantilever induced by acoustic radiation force. Europhysics Letters, 2019, 127(2): 24003:p1-p7.
  7. Tang YF, Xin FX*, Lu TJ*. Sound absorption of micro-perforated sandwich panel with honeycomb-corrugation hybrid core at high temperatures. Composite Structures, 2019, 226: 111285:1-11.
  8. Xin FX*, Ma XW, Liu XW, Zhang Ch. A multiscale theoretical approach for the sound absorption of slit-perforated double porosity materials. Composite Structures, 2019, 223: 110919:1-12.

 

2018

  1. Song SY, Yang XH, Xin FX*, Lu TJ*. Modeling of surface roughness effects on Stokes flow in circular pipes. Physics of Fluids, 2018, 30(2): 023604:1-11.
  2. Song SY, Yang XH, Xin FX*, Lu TJ*. Publisher’s Note: “Modeling of surface roughness effects on Stokes flow in circular pipes” [Phys. Fluids 30, 023604 (2018)]. Physics of Fluids, 2018, 30(4): 049901.
  3. Ye CZ, Liu XW, Xin FX*, Lu TJ*. Influence of hole shape on sound absorption of underwater anechoic layers. Journal of Sound and Vibration, 2018, 426: 54-74.
  4. Xin FX*, Lu TJ. Acousto-thermo-mechanical deformation of hydrogels coupled with chemical diffusion. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2018, 474(2217): 20180293:1-17.
  5. Zhang FH, Tang YF, Xin FX*, Lu TJ*. Micro-perforated acoustic metamaterial with honeycomb-corrugation hybrid core for broadband low frequency sound absorption. Acta Physics Sinica, 2018,67(23): 234303:1-11.
  6. Xin FX*, Lu TJ. Modulation of acoustomechanical instability and bifurcation behavior of soft material. Scientific Reports, 2018, 8(1), 16661:1-10.

 

2017

  1. Xin FX*, Lu TJ*. A plane strain elasticity model for the acoustical properties of rib-stiffened composite plates. European Journal of Mechanics - A/Solids, 2017, 62: 1-13.
  2. Tang Y, Ren SW, Meng H, Xin FX*, Huang LX, Chen TN, Zhang Ch, Lu TJ*. Hybrid acoustic metamaterial as super absorber for broadband low-frequency sound. Scientific Reports, 2017,7:43340:1-10.
  3. Xin FX*, Lu TJ*. Nonlinear large deformation of acoustomechanical soft materials. Mechanics of Materials, 2017,107:71-80.
  4. Xin FX*, Gong JQ, Ren SW, Huang LX*, Lu TJ. Thermoacoustic response of a simply supported isotropic rectangular plate in graded thermal environments. Applied Mathematical Modelling, 2017, 44: 456-469.
  5. Xin FX*, Lu TJ*. A nonlinear acoustomechanical field theory of polymeric gels. International Journal of Solids and Structures, 2017, 112: 133-142.
  6. Peng XJ, He W, Liu YF, Xin FX*, Lu TJ*. Optomechanical Soft Metamaterials. Acta Mechanica Sinica, 2017, 33(3), 575-584.
  7. Song SY, Yang XH*, Xin FX*, Ren SW, Lu TJ*. Modeling of roughness effects on acoustic properties of micro-slits. Journal of Physics D: Applied Physics, 2017, 50(23): 235303:1-14.
  8. Ren SW, Ao QB, Meng H, Xin FX*, Huang LX, Zhang Ch, Lu TJ*. A semi-analytical model for sound propagation in sintered fiber metals. Composites Part B-Engineering, 2017, 126: 17-26.
  9. Tang YF, Xin FX*, Huang LX, Lu TJ*. Deep subwavelength acoustic metamaterial for low-frequency sound absorption.  Europhysics Letters, 2017, 118(4): 44002:p1-p5.
  10. Xin FX*, Lu TJ*. Self-controlled wave propagation in hyperelastic media. Scientific Reports, 2017, 7(1): 7581:1-9.
  11. Ren SW, Xin FX*, Lu TJ*, Zhang Ch. A semi-analytical model for the influence of temperature on sound propagation in sintered metal fiber materials. Materials & Design, 2017, 134: 513-522.
  12. Tang YF, Li FH, Xin FX*, Lu TJ*. Heterogeneously perforated honeycomb-corrugation hybrid sandwich panel as sound absorber. Materials & Design, 2017, 134: 502-512.
  13. Han Meng, Galland Marie-Annick*, Olivier Bareille*, Fengxian Xin, Tian Jian Lu. Small perforations in corrugated sandwich panel significantly enhance low frequency sound absorption and transmission loss. Composite Structures, 2017, 182:1-11.
  14. Ren SW, Liu XW, Gong JQ, Tang YF, Xin FX*, Huang LX, Lu TJ. Tunable acoustic absorbers with periodical micro-perforations having varying pore shapes. Europhysics Letters, 2017, 120(4): 44001:p1-p6.

 

 

2017年以前

  1. Xin FX*, Lu TJ*. Analytical modeling of fluid loaded orthogonally rib-stiffened sandwich structures: Sound transmission. Journal of the Mechanics and Physics of Solids, 2010, 58 (9):1374-1396.
  2. Xin FX*, Lu TJ*. Sound radiation of orthogonally rib-stiffened sandwich structures with cavity absorption. Composites Science and Technology, 2010, 70 (15): 2198-2206.
  3. Xin FX, Lu TJ*. Analytical and experimental investigation on transmission loss of clamped double panels: Implication of boundary effects. Journal of the Acoustical Society of America, 2009, 125 (3): 1506-1517.
  4. Xin FX, Lu TJ*, Chen CQ*. Vibroacoustic behavior of clamp mounted double-panel partition with enclosure air cavity. Journal of the Acoustical Society of America, 2008, 124 (6): 3604-3612.
  5. Xin FX, Lu TJ*. Analytical modeling of sound transmission across finite aeroelastic panels in convected fluids. Journal of the Acoustical Society of America, 2010, 128 (3):1097-1107.
  6. Xin FX, Lu TJ*. Transmission loss of orthogonally rib-stiffened double-panel structures with cavity absorption. Journal of the Acoustical Society of America, 2011, 129 (4): 1919-1934.
  1. Xin FX, Lu TJ*, Chen CQ. Dynamic response and acoustic radiation of double-leaf metallic panel partition under sound excitation. Computational Materials Science, 2009, 46 (3): 728-732.
  2. Xin FX*, Lu TJ*, Chen CQ*. External mean flow Influence on noise transmission through double-leaf aeroelastic plates. AIAA Journal, 2009, 47 (8): 1939-1951.
  3. Xin FX*, Lu TJ*, Chen CQ. Sound Transmission through Simply Supported Finite Double-Panel Partitions with Enclosed Air Cavity. Journal of Vibration and Acoustics-ASME, 2010, 132 (1), 011008: 1-11.
  4. Xin FX, Lu TJ*. Analytical modeling of sound transmission through clamped triple-panel partition separated by enclosed air cavities. European Journal of Mechanics - A/Solids, 2011, 30 (6): 770-782.
  1. Xin FX*, Lu TJ. Analytical modeling of wave propagation in orthogonally rib-stiffened sandwich structures: Sound radiation. Computers and Structures, 2011, 89 (5-6): 507-516.
  2. Xin FX, Lu TJ*. Effects of core topology on sound insulation performance of lightweight all-metallic sandwich panels. Materials and Manufacturing Processes, 2011, 26 (9): 1213-1221.
  1. Shen C, Xin FX*, Lu TJ*. Theoretical model for sound transmission through finite sandwich structures with corrugated core. International Journal of Non-Linear Mechanics, 2012, 47(10): 1066-1072.
  2. Xin FX, Lu TJ*. Sound radiation of parallelly stiffened plates under convected harmonic pressure excitation. Science China Technological Sciences, 2012, 55(2): 496-500.
  3. Meng H, Xin FX* and Lu TJ*. External Mean Flow Effects on Sound Transmission Through Acoustic Absorptive Sandwich Structure. AIAA Journal, 2012, 50(10): 2268-2276.
  4. Ni CY, Li YC, Xin FX*, Jin F and Lu TJ*. Ballistic resistance of hybrid-cored sandwich plates: numerical and experimental assessment. Composites Part A: Applied Science and Manufacturing, 2013, 46: 69-79.
  5. Xin FX*, Lu TJ*. External Mean Flow Effects on Noise Radiation from Orthogonally Rib-Stiffened Aeroelastic Plates. AIAA Journal, 2013, 51(2): 406-415.
  1. Xin FX*, Lu TJ. Effects of mean flow on transmission loss of orthogonally rib-stiffened aeroelastic plates. Journal of the Acoustical Society of America, 2013, 133(6): 3909-3920.
  2. Shen C, Xin FX*, Cheng L, Lu TJ*. Sound radiation of orthogonally stiffened laminated composite plates under airborne and structure borne excitations. Composites Science and Technology, 2013, 84: 51-57.
  3. Shen C, Xin FX*, Lu TJ. A 3-D elasticity theory based model for acoustic radiation from multilayered anisotropic plates. Journal of the Acoustical Society of America, 2014, 135(5): EL232-EL238.
  4. Shen C, Xin FX*, Lu TJ. Transmission Loss of Orthogonally Stiffened Laminated Composite Plates . Journal of Mechanical Science and Technology, 2015, 29(1):59-66.
  5. Meng H, Ao QB, Tang HP, Xin FX* and Lu TJ. Dynamic flow resistivity based model for sound absorption of multi-layer sintered fibrous metals. Science China Technological Sciences, 2014, 57(11): 2096-2105.
  1. Meng H, Xin FX* and Lu TJ. Sound absorption optimization of graded semi-open cellular metals by adopting the genetic algorithm method. Journal of Vibration and Acoustics-ASME, 2014, 136(6), 061007:1-8.
  2. Xin FX*. An exact elasticity model for rib-stiffened plates covered by decoupling acoustic coating layers. Composite Structures, 2015, 119(1): 559-567.
  3. Ren SW, Meng H, Xin FX* and Lu TJ. Sound absorption enhancement by thin multi-slit hybrid structures. Chinese Physics Letters, 2015, 32(1), 014302: 1-4.  
  4. Meng H, Ao QB, Ren SW, Xin FX*, Tang HP and Lu TJ. Anisotropic acoustical properties of sintered fibrous metals. Composites Science and Technology, 2015, 107: 10-17.
  5. Xin FX*. Signal response of rib-stiffened plates covered by decoupling coating layers. Journal of Sound and Vibration, 2015, 348: 206-223.
  6. Yang XH, Ren SW, Wang WB, Liu X, Xin FX, Lu TJ*. A simplistic unit cell model for sound absorption of cellular foams with fully/semi-open cells. Composites Science and Technology, 2015,118: 276-283.
  7. Ren SW, Meng H, Xin FX* and Lu TJ*. Ultrathin multi-slit metamaterial as excellent sound absorber: Influence of micro-structure. Journal of Applied Physics, 2016, 119(1), 014901:1-8.
  8. Shen C, Xin FX*, Lu TJ. Sound transmission across composite laminate sandwiches: influence of orthogonal stiffeners and laminate layup. Composite Structures, 2016, 143, 310-316.
  9. Meng H, Yang Xh, Ren SW, Xin FX* and Lu TJ*. Sound propagation in composite micro-tubes with surface-mounted fibrous roughness elements. Composites Science and Technology, 2016, 127, 158-168 .
  10. Meng H, Ren SW, Xin FX* and Lu TJ*. Sound absorption coefficient optimization of gradient sintered metal fiber felts. Science China Technological Sciences, 2016, 59(5), 699-708.
  11. Xin FX*, Lu TJ*. Generalized method to analyze acoustomechanical stability of soft materials. Journal of Applied Mechanics-ASME, 2016, 83(7), 071004:1-4.
  12. Xin FX*, Lu TJ*. Acoustomechanical constitutive theory for soft materials. Acta Mechanica Sinica, 2016, 32(5), 828-840. [第四届中国科协优秀科技论文奖]
  13. Xin FX*, Lu TJ*. True method to analyze electromechanical stability of dielectric elastomers. Europhysics Letters, 2016, 114(2): 26002:p1-p5.
  14. Xin FX*, Lu TJ*. Tensional acoustomechanical soft metamaterials. Scientific Reports, 2016, 6: 27432:1-7.
  15. Chen WH, Chen TN, Xin FX*, Wang Xp, Du XW, Lu TJ. Modeling of sound absorption based on the fractal microstructures of porous fibrous metals. Materials & Design, 2016, 105: 386-397.
  16. Xin FX*, Lu TJ*. Acoustomechanical giant deformation of soft elastomers with interpenetrating networks. Smart Materials and Structures, 2016, 25(7): 07LT02:1-7.
  17. Ma XW, Liu XW, Xin FX*. Sound absorption performance of gradiently slit-perforated double porosity materials. Chinese Journal of Acoustics, 2021, 40(1): 1-17.
  18. Xin FX, Lu TJ*, Chen CQ. Sound transmission across lightweight all-metallic sandwich panels with corrugated cores. Chinese Journal of Acoustics, 2009, 28 (3): 231-243.
  19. Xin FX*, Lu TJ*. Acoustomechanics of semicrystalline polymers. Theoretical and Applied Mechanics Letters, 2016, 6(1): 38-41.
  20. 辛锋先, 张钱城, 卢天健*. 轻质夹层材料的制备和振动声学性能. 力学进展, 2010, 40 (4): 375-399.
  21. 任树伟, 辛锋先, 卢天健*. 蜂窝层芯夹层板结构振动与传声特性研究. 力学学报, 2013, 45(3): 349-358.
  22. 辛锋先*. 复杂板壳结构声振耦合特性的理论与实验研究. 固体力学学报, 2012, 33 (3):336-340 .
  23. 孟晗, 辛锋先*, 卢天健. 多孔纤维吸声材料填充蜂窝结构的声学性能. 中国科学: 物理学 力学 天文学, 2014, 44(6): 599-609.
  24. 任树伟, 辛锋先*, 卢天健. 考虑尺度效应的微平板声振耦合特性研究. 中国科学: 技术科学, 2014, 44(2): 201-208.
  25. 辛锋先*, 卢天健*. 轻质板壳结构振动与声学耦合特性的理论及实验研究. 应用数学和力学, 2014, 35(6): 1001-1007.
  26. 辛锋先, 卢天健*, 陈常青. 轻质金属三明治板的隔声性能研究. 声学学报, 2008, 33 (4): 340-347.
  1. 任树伟, 孟晗, 辛锋先*, 卢天健, 慈军, 耿丽. 方形蜂窝夹层曲板的振动特性研究. 西安交通大学学报, 2015, 49(3): 129-135.
  2. 张俊, 陈卫华, 任树伟, 辛锋先* , 陈天宁, 卢天健. 高温环境下梯度多孔金属纤维的吸声性能及优化设计. 西安交通大学学报, 2018, 52(1): 143-150.
  3. 马晓文, 刘学伟, 辛锋先*. 梯度穿缝型双孔隙率多孔材料的吸声性能. 声学学报, 2020, 45(2): 247-257.
  1. 叶昌铮, 孟晗, 辛锋先*, 卢天健. 基于传递函数法的水下消声层声学性能研究. 力学学报, 2016, 48(1): 213-224.
  2. 唐宇帆, 任树伟, 辛锋先*, 卢天健. MEMS系统中微平板结构声振耦合性能研究. 力学学报, 2016, 48(4):907-916.
  3. 徐志敏, 宋思远, 辛锋先*, 杨肖虎, 卢天健*. Reynolds数下粗糙圆管中黏性流场的理论解. 应用数学与力学, 2018, 39(2): 123-136. [期刊当期置顶Hot文章]

 

学术专著:

1. 卢天健, 辛锋先. 轻质板壳结构设计的振动和声学基础(229 pages288k. 北京: 科学出版社, 国家科学技术学术著作出版基金资助出版, 2012, ISBN 978-7-03-030428-5.

2.  Lu TJ and Xin FX. Vibro-acoustics of lightweight sandwich structures (339 pages443k). Berlin Heidelberg: Springer, 2014, ISBN 978-3-642-55357-8.

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