弹性边界对薄圆柱壳模态参数的影响

IF 0.8 4区工程技术 Q4 ACOUSTICS

International Journal of Acoustics and Vibration Pub Date : 2018-01-01 DOI:10.20855/IJAV.2018.23.11253

Hui Li, Haitao Luo, Wei Sun, B. Wen

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引用次数: 4

摘要

本文采用理论与实验相结合的方法研究了弹性边界对薄圆柱壳模态参数的影响。首先，采用人工刚度法和有限元法计算弹性支承壳在一定条件下的固有频率和模态振型，从而大致掌握弹性支承壳的振动特性。然后，采用以下测量和识别技术获得精确的频率、阻尼和形状结果:在测试系统中使用非接触式激光多普勒测振仪和激振器，并精确控制激振电平;采用“预试验”确定所需的拧紧力矩，验证被试壳体是否处于约束边界下;采用小段FFT处理技术精确测量固有频率，采用激光旋转扫描技术获得高效率的形状结果。最后，根据精确的实测数据，对弹性边界下TCS固有频率、模态振型和阻尼比的影响进行了分析和讨论。可以发现，弹性边界对频率和阻尼结果有显著影响，明显降低了高阶阻尼，降低了大多数模态的固有频率。当轴向模态阶数为m = 1时，高阶固有频率和模态振型与约束条件下相同，且固有频率随模态振型的变化趋势不变，与人工刚度法和有限元法计算结果吻合较好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Influence of Elastic Boundary on Modal Parameters of Thin Cylindrical Shell

This research combines theory with experiment to investigate the influence of an elastic boundary on modal parameters of a thin cylindrical shell (TCS). First, artificial stiffness method and finite element method (FEM) are employed to calculate natural frequencies and modal shapes of TCS under condition such that vibration characteristics of elastically supported shell can be roughly mastered. Then, the following measurements and identification techniques are used to get precise frequency, damping, and shape results: non-contact laser Doppler vibrometer and vibration shaker with excitation level being precisely controlled are used in the test system; “pre-experiment” is adopted to determine the required tightening torque as well as to verify whether or not the tested shell is under constraint boundary; and small-segment FFT processing technique is employed to accurately measure nature frequency, and laser rotating scanning technique is used to get shape results with high efficiency. Finally, based on the accurate measured data, the influences on natural frequencies, modal shapes, and damping ratios of TCS under elastic boundary are analysed and discussed. It can be found that an elastic boundary can significantly affect frequency and damping results, clearly reducing high order damping and decreasing natural frequencies of most modes. However, high order natural frequencies and mode shapes are still the same as the ones under the constraint condition, and the changing trend of natural frequencies with mode shapes is constant when the order of axial mode is m = 1, which agrees well with the results calculated by artificial stiffness method and FEM.

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来源期刊

International Journal of Acoustics and Vibration ACOUSTICS-ENGINEERING, MECHANICAL

CiteScore

1.60

自引率

10.00%

发文量

审稿时长

12 months

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