Applied Mathematics and Mechanics (English Edition) ›› 2024, Vol. 45 ›› Issue (9): 1595-1612.doi: https://doi.org/10.1007/s10483-024-3139-6
• Articles • Previous Articles Next Articles
Fenglian LI*(
), Yiping WANG, Yuxing ZOU
Email Alert
RSSReceived:2024-03-28
Online:2024-09-01
Published:2024-08-27
Contact:
Fenglian LI
E-mail:lifenglian@126.com
Supported by:2010 MSC Number:
Fenglian LI, Yiping WANG, Yuxing ZOU. Optimization for sound insulation of a sandwich plate with a corrugation and auxetic honeycomb hybrid core. Applied Mathematics and Mechanics (English Edition), 2024, 45(9): 1595-1612.
Fig. 1
Model of a sandwich plate with the corrugation and auxetic honeycomb mixed core"
Fig. 2
Equivalent model of the corrugation and auxetic honeycomb hybrid core layer"
Fig. 3
Plane sound wave incident on the sandwich plate"
Fig. 4
(a) Present theoretical and COMSOL simulation results of STL. (b) STL convergence (color online)"
Table 1
Natural frequencies of the sandwich plate with the corrugation and auxetic honeycomb hybrid core"
 |
Fig. 5
Vibration modes of the sandwich plate under the excited sound pressure (color online)"
Fig. 6
Vibration modes for the free vibration of the sandwich plate (color online)"
Fig. 7
Effects of the core thicknesses hc on the STL (color online)"
Fig. 8
Effects of the honeycomb wall thicknesses th on the STL (color online)"
Fig. 9
Effects of tc on the STL (color online)"
Fig. 10
Optimized results of the core thickness at multiple frequencies (color online)"
Fig. 11
Optimized results of the aspect ratio (color online)"
Fig. 12
Dual-parameter optimized results of the core thickness-to-aspect ratio (color online)"
Fig. 13
Multi-parameter comprehensive optimized results as η=0.2 (color online)"
Fig. 14
Multi-parameter comprehensive optimization results as η=0.01 (color online)"
| 1 | TEWARI, K., PANDIT, M. K., BUDARAPU, P. R., and NATARAJAN, S. Analysis of sandwich structures with corrugated and spiderweb-inspired cores for aerospace applications. Thin-Walled Structures, 180, 109812 (2022) |
| 2 | RUI, G., ZHANG, Q., ZHAO, Z., FENG, J., and LIU, R. Progress in manufacturing lightweight corrugated sandwich structures and their multifunctional applications. Mechanics in Engineering, 39, 226- 239 (2017) |
| 3 | HOHE, J., and BECKER, W. Effective stress-strain relations for two-dimensional cellular sandwich cores: homogenization, material models, and properties. Applied Mechanics Reviews, 55, 61- 87 (2002) |
| 4 | ZHUANG, W. Z., YANG, C., and WU, Z. G. Modal and aeroelastic analysis of trapezoidal corrugated-core sandwich panels in supersonic flow. International Journal of Mechanical Sciences, 157, 267- 281 (2019) |
| 5 | HOU, W. B., SHEN, Y. X., JIANG, K., and WANG, C. S. Study on mechanical properties of carbon fiber honeycomb curved sandwich structure and its application in engine hood. Composite Structures, 286, 115302 (2022) |
| 6 | SHEN, C., XIN, F. X., and LU, T. J. Theoretical model for sound transmission through finite sandwich structures with corrugated core. International Journal of Non-Linear Mechanics, 47, 1066- 1072 (2012) |
| 7 | HAN, B., QIN, K., YU, B., WANG, B., and ZHANG, Q. C. Honeycomb-corrugation hybrid as a novel sandwich core for significantly enhanced compressive performance. Materials & Design, 93, 271- 282 (2016) |
| 8 | HAN, B., ZHANG, Z. J., ZHANG, Q. C., ZHANG, Q., LU, T. J., and LU, B. H. Recent advances in hybrid lattice-cored sandwiches for enhanced multifunctional performance. Extreme Mechanics Letters, 10, 58- 69 (2016) |
| 9 | ZHANG, Z. J., HAN, B., ZHANG, Q. C., and JIN, F. Free vibration analysis of sandwich beams with honeycomb-corrugation hybrid cores. Composite Structures, 171, 335- 344 (2017) |
| 10 | ZHANG, Z. J., ZHANG, Q. C., ZHANG, D. Z., LI, Y, JIN, F., and FANG, D. N. Enhanced mechanical performance of brazed sandwich panels with high density square honeycomb-corrugation hybrid cores. Thin-Walled Structures, 151, 106757 (2020) |
| 11 | LIU, J. Y., and LIU, H. T. Energy absorption characteristics and stability of novel bionic negative Poisso's ratio honeycomb under oblique compression. Engineering Structures, 267, 114682 (2022) |
| 12 | LI, Z., WANG, B. L., WANG, K. F., and ZHENG, L. Improving thermomechanical properties of cracked brittle honeycombs by negative Poisson's ratio effect. Composite Structures, 266, 113825 (2021) |
| 13 | SHAO, Y. J., MENG, J. X., MA, G. H., REN, S., FANG, L., CAO, X. F., LIU, L. W., LI, H. M., WU, W. W., and XIAO, D. B. Insight into the negative Poisson's ratio effect of the gradient auxetic reentrant honeycombs. Composite Structures, 274, 114366 (2021) |
| 14 | XIAO, P., ZHONG, Y. F., JIE, S., and ZHENG, S. Global buckling analysis of composite honeycomb sandwich plate with negative Poisson's ratio using variational asymptotic equivalent model. Composite Structures, 264, 113721 (2021) |
| 15 | XU, F., YU, K., and HUA, L. In-plane dynamic response and multi-objective optimization of negative Poisson's ratio (NPR) honeycomb structures with sinusoidal curve. Composite Structures, 269, 114018 (2021) |
| 16 | LI, F. L., YUAN, W. H., and ZHANG, C. Z. Free vibration and sound insulation of functionally graded honeycomb sandwich plates. Journal of Sandwich Structures and Materials, 24, 565- 600 (2022) |
| 17 | XIN, F. X., and LU, T. J. Sound radiation of orthogonally rib-stiffened sandwich structures with cavity absorption. Composite Science and Technology, 70, 2198- 2206 (2010) |
| 18 | LIN, C. G., WEN, G. L., YIN, H. F., WANG, Z. P., LIU, J., and XIE, Y. M. Revealing the sound insulation capacities of TPMS sandwich panels. Journal of Sound and Vibration, 540, 117303 (2022) |
| 19 | GRIESE, D., SUMMERS, J. D., and THOMPSON, L. The effect of honeycomb core geometry on the sound transmission performance of sandwich panels. Journal of Vibration and Acoustics: Transactions of the ASME, 137, 021011 (2015) |
| 20 | 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, 152, 31- 40 (2019) |
| 21 | OLIAZADEH, P., FARSHIDIANFAR, A., and CROCKER, M. J. Experimental study and analytical modeling of sound transmission through honeycomb sandwich panels using SEA method. Composite Structures, 280, 114927 (2022) |
| 22 | XUE, Y., LI, J. Q., WANG, Y., SONG, Z. G., and KRUSHYNSKA, A. O. Widely tunable magnetorheological metamaterials with nonlinear amplification mechanism. International Journal of Mechanics Science, 264, 108830 (2024) |
| 23 | LI, J. Q., XUE, Y., and LI, F. M. Active band gap control of magnetorheological meta-plate using frequency feedback control law. Journal of Sound and Vibration, 567, 118076 (2023) |
| 24 | DONG, H. W., SHEN, C., ZHAO, S. D., QIU, W. B., ZHENG, H. R., ZHANG, C. Z., CUMMER, S. A., WANG, Y. S., FANG, D. A., and CHENG, L. Achromatic metasurfaces by dispersion customization for ultra-broadband acoustic beam engineering. National Science Review, 12, 185- 195 (2022) |
| 25 |
YUAN, W. H., LIAO, H. T., GAO, R. X., and LI, F. L. Vibration and sound transmission loss characteristics of porous foam functionally graded sandwich panels in thermal environment. Applied Mathematics and Mechanics (English Edition), 44 (6), 897- 916 (2023)
doi: 10.1007/s10483-023-3004-7 |
| 26 | FU, T., CHEN, Z. B., YU, H. Y., LI, C. G., and ZHAO, Y. Z. Thermal buckling and sound radiation behavior of truss core sandwich panel resting on elastic foundation. International Journal of Mechanical Sciences, 161, 105055 (2019) |
| 27 | SONG, Y. B., WEN, J. H., TIAN, H., LU, X. G., LI, Z. C., and FENG, L. P. Vibration and sound properties of metamaterial sandwich panels with periodically attached resonators: simulation and experiment study. Journal of Sound and Vibration, 489, 115644 (2020) |
| 28 | THAMBURAJ, P., and SUN, J. Q. Optimization of anisotropic sandwich beams for higher sound transmission loss. Journal of Sound and Vibration, 254, 23- 36 (2002) |
| 29 | TSAI, Y. T., PAWAR, S. J., and HUANG, J. H. Optimizing material properties of composite plates for sound transmission problem. Journal of Sound and Vibration, 335, 174- 186 (2015) |
| 30 | KIM, H., GOO, S., JUNG, J., and WANG, S. Design optimization of a cellular-type noise insulation panel to improve transmission loss at low frequency. Journal of Sound and Vibration, 447, 105- 119 (2019) |
| 31 | JIE, Z., ATUL, B., and XIN, Z. Optimization for sound transmission through a double-wall panel. Applied Acoustics, 74, 1422- 1428 (2013) |
| 32 | DENLI, H., and SUN, J. Q. Structural-acoustic optimization of sandwich structures with cellular cores for minimum sound radiation. Journal of Sound and Vibration, 301, 93- 105 (2006) |
| 33 | ZHANG, G. H., ZHENG, H., and ZHU, X. S. Optimization of composite plates with viscoelastic damping layer for high sound transmission loss under stiffness and strength constraints. Composite Structures, 306, 116563 (2023) |
| 34 | JIANG, F., YANG, S., QI, C., LIU, H. T., REMENNIKOV, A., and PEI, L. Z. Blast response and multi-objective optimization of graded re-entrant circular auxetic cored sandwich panels. Composite Structures, 305, 116494 (2023) |
| 35 | DONG, H. W., ZHAO, S. D., WANG, Y. S., and ZHANG, C. Z. Topology optimization of anisotropic broadband double-negative elastic metamaterials. Journal of the Mechanics and Physics of Solids, 105, 54- 80 (2017) |
| 36 | DONG, H. W., ZHAO, S. D., XIANG, P., WANG, B., ZHANG, C. Z., CHENG, L., WANG, Y. S., and FANG, D. A. Porous-solid metaconverters for broadband underwater sound absorption and insulation. Physical Review Applied, 19, 044074 (2023) |
| 37 | WANG, D., XIE, S. C., YANG, S. C., and LI, Z. Sound absorption performance of acoustic metamaterials composed of double-layer honeycomb structure. Journal of Central South University, 28, 2947- 2960 (2021) |
| 38 | HU, J., YAO, S., and HUANG, X. D. Topological design of sandwich structures filling with poroelastic materials for sound insulation. Finite Elements in Analysis & Design, 199, 103650 (2022) |
| 39 | REDDY, J. N. Mechanics of Laminated Composite Plates and Shells: Theory and Analysis, CRC Press, New York (2004) |
| [1] | Chao WANG, Honggang ZHAO, Yang WANG, Jie ZHONG, Dianlong YU, Jihong WEN. Topology optimization of chiral metamaterials with application to underwater sound insulation [J]. Applied Mathematics and Mechanics (English Edition), 2024, 45(7): 1119-1138. |
| [2] | Jun DENG, Ke ZHAO, Lin ZHOU, Wei ZHANG, Bowen SHU, Jiangtao HUANG, Zhenghong GAO. Aerodynamic/stealth design of S-duct inlet based on discrete adjoint method [J]. Applied Mathematics and Mechanics (English Edition), 2024, 45(4): 725-746. |
| [3] | Lei WANG, Yingge LIU, Juxi HU, Weimin CHEN, Bing HAN. A non-probabilistic reliability topology optimization method based on aggregation function and matrix multiplication considering buckling response constraints [J]. Applied Mathematics and Mechanics (English Edition), 2024, 45(2): 321-336. |
| [4] | Yanda WANG, Yanping LIAN, Zhidong WANG, Chunpeng WANG, Daining FANG. A novel triple periodic minimal surface-like plate lattice and its data-driven optimization method for superior mechanical properties [J]. Applied Mathematics and Mechanics (English Edition), 2024, 45(2): 217-238. |
| [5] | Yiheng YANG, Kai ZHANG, Zhihua CHEN, Bin LI. Distributionally robust model predictive control for constrained robotic manipulators based on neural network modeling [J]. Applied Mathematics and Mechanics (English Edition), 2024, 45(12): 2183-2202. |
| [6] | Jianlin YI, Zheng WU, Rongyu XIA, Zheng LI. Reconfigurable metamaterial for asymmetric and symmetric elastic wave absorption based on exceptional point in resonant bandgap [J]. Applied Mathematics and Mechanics (English Edition), 2023, 44(1): 1-20. |
| [7] | Yu FU, Li LI, Hongfang CHEN, Xuelin WANG, Ling LING, Yujin HU. Rational design of thermoelastic damping in microresonators with phase-lagging heat conduction law [J]. Applied Mathematics and Mechanics (English Edition), 2022, 43(11): 1675-1690. |
| [8] | Shichao ZHENG, Xiaogang DENG, Dongfang WANG. New optimized flux difference schemes for improving high-order weighted compact nonlinear scheme with applications [J]. Applied Mathematics and Mechanics (English Edition), 2021, 42(3): 405-424. |
| [9] | Zhaoyue XU, Lin DU, Haopeng WANG, Zichen DENG. Particle swarm optimization-based algorithm of a symplectic method for robotic dynamics and control [J]. Applied Mathematics and Mechanics (English Edition), 2019, 40(1): 111-126. |
| [10] | Xiaowei LI, Liang FANG, Yan PENG. Airfoil design optimization based on lattice Boltzmann method and adjoint approach [J]. Applied Mathematics and Mechanics (English Edition), 2018, 39(6): 891-904. |
| [11] | Hui GUAN, Yifei XUE, Zhijun WEI, Chuijie WU. Numerical simulations of sloshing and suppressing sloshing using the optimization technology method [J]. Applied Mathematics and Mechanics (English Edition), 2018, 39(6): 845-854. |
| [12] | Yu LIN, Yaming CHEN, Chuanfu XU, Xiaogang DENG. Optimization of a global seventh-order dissipative compact finite-difference scheme by a genetic algorithm [J]. Applied Mathematics and Mechanics (English Edition), 2018, 39(11): 1679-1690. |
| [13] | Xu HUANG, Ye YAN, Yang ZHOU, Hua ZHANG. Pseudospectral method for optimal propellantless rendezvous using geomagnetic Lorentz force [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(5): 609-618. |
| [14] | T. ANTCZAK. Exactness of penalization for exact minimax penalty function method in nonconvex programming [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(4): 541-556. |
| [15] | M. A. Z. RAJA, R. SAMAR, T. HAROON, S. M. SHAH. Unsupervised neural network model optimized with evolutionary computations for solving variants of nonlinear MHD Jeffery-Hamel problem [J]. Applied Mathematics and Mechanics (English Edition), 2015, 36(12): 1611-1638. |
| Viewed | ||||||
|
Full text |
|
|||||
|
Abstract |
|
|||||
