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Power Delivered to Mechanical Systems by Random Vibrations
Author(s) -
Timothy S. Edwards
Publication year - 2009
Publication title -
shilap revista de lepidopterología
Language(s) - English
Resource type - Journals
eISSN - 2340-4078
pISSN - 0300-5267
DOI - 10.3233/sav-2009-0465
Subject(s) - vibration , random vibration , power (physics) , environmental science , acoustics , physics , thermodynamics
This paper develops deformational response power descriptions of multiple degree-of-freedom systems due to stationary random vibration excitation. Two new concepts are developed. The deformational response power density (DRPD) can be computed when a structure's natural frequencies and modal masses are available. The DRPD shows the spectral content of the deformational power delivered to a specific structure by the stationary, random excitation. This function can be found through a weighted windowing of the power spectrum of the input acceleration excitation. Deformational response input power spectra (DRIPS), similar to the input energy spectrum and shock response spectrum, give the power delivered to single-degree-of-freedom systems as a function of natural frequency. It is shown that the DRIPS is simply a smoothed version of the power spectrum of the input acceleration excitation. The DRIPS gives rise to a useful power-based data smoothing operation

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