Tianlin Chen scite author profile

PurposeThe purpose of the study is to obtain and analyze vibro-acoustic characteristics.Design/methodology/approachA unified analysis model for the rotary composite laminated plate and conical–cylindrical double cavities coupled system is established. The related parameters of the unified model are determined by isoparametric transformation. The modified Fourier series are applied to construct the admissible displacement function and the sound pressure tolerance function of the coupled systems. The energy functional of the structure domain and acoustic field domain is established, respectively, and the structure–acoustic coupling potential energy is introduced to obtain the energy functional. Rayleigh–Ritz method was used to solve the energy functional.FindingsThe displacement and sound pressure response of the coupled systems are acquired by introducing the internal point sound source excitation, and the influence of relevant parameters of the coupled systems is researched. Through research, it is found that the impedance wall can reduce the amplitude of the sound pressure response and suppress the resonance of the coupled systems. Besides, the composite laminated plate has a good noise reduction effect.Originality/valueThis study can provide the theoretical guidance for vibration and noise reduction.

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Acoustic field characteristic analysis of the rotary acoustic cavity coupled system

Chen

Zhang

Huang

2022

Journal of Low Frequency Noise, Vibration and Active Control

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The rotary acoustic cavity coupled system can be generated in working conditions of aviation, aerospace, ship, machinery, and other fields. The rotary acoustic cavity includes cylindrical, spherical, and conical acoustic cavities, which integrates into the unified analysis model by iso-parametric transformation in finite element method. To study the acoustic field characteristic of rotary acoustic cavity coupled system, a unified analysis model of rotary acoustic cavity coupled system is established: First, the acoustic field characteristic of the coupled system is researched by improved Fourier series method, and the admissible sound pressure function is constructed by three-dimensional modified Fourier series. Then, the acoustic field domain energy functional is established, and the coupled domain energy functional including the coupled potential energy between the sound cavities is introduced to acquire the total energy functional of the coupled system. Finally, the energy equation is solved by Rayleigh–Ritz method, and the natural frequency and corresponding mode of the coupled system are obtained. The unified analysis model demonstrates excellent convergence and accuracy, which is verified by the results of finite element method. Sound pressure responses of the coupled system are obtained by introducing the internal point sound source excitation. The effect of relevant parameters of the coupled system on natural frequency and sound pressure response is investigated, which can provide theoretical guidance for vibration and noise reduction.

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Tianlin Chen

The modeling method of anisotropic U-shaped plate and U-shaped plate–cavity coupled system

Vibro-acoustic characteristics analysis of the rotary composite plate and conical–cylindrical double cavities coupled system

Acoustic field characteristic analysis of the rotary acoustic cavity coupled system

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Tianlin Chen

The modeling method of anisotropic U-shaped plate and U-shaped plate–cavity​ coupled system

Vibro-acoustic characteristics analysis of the rotary composite plate and conical–cylindrical double cavities coupled system

Acoustic field characteristic analysis of the rotary acoustic cavity coupled system

Contact Info

Product

Resources

About

The modeling method of anisotropic U-shaped plate and U-shaped plate–cavity coupled system