Statistical Energy Analysis: An Overview, with Applications in Structural DynamicsA. J. Keane, W. G. Price Cambridge University Press, 1997. gada 6. marts - 139 lappuses This 1997 volume provides an overview of statistical energy analysis and its applications in structural vibration. Statistical energy analysis is a powerful method for predicting and analysing the vibrational behaviour of structures. Its main use is for structures that can be considered as assemblies of interconnected subsystems which are subject to medium to high frequency vibration sources. This volume brings together nine articles by experts from around the world. The opening chapter gives an introduction and overview of the technique describing its key successes, potential and limitations. Following chapters look in more detail at a selection of cases and examples which together illustrate the scope and power of the technique. This book is based on a Royal Society Philosophical Transactions issue under the title 'Statistical Energy Analysis', but an extra chapter, by Chohan, Price, Keane and Beshara, discussing nonconservatively coupled systems is included in this edition. |
Saturs
Frank J Fahy | 1 |
Heckl and M Lewit | 19 |
Cacciolati and J L Guyader | 35 |
Robin S Langley and Ahmet N Bercin | 59 |
J Allright M Blakemore | 81 |
S Manohar and A J Keane | 95 |
Beshara G Y Choman A J Keane and W J Price | 113 |
Citi izdevumi - Skatīt visu
Statistical Energy Analysis: An Overview, with Applications in Structural ... A. J. Keane,W. G. Price Ierobežota priekšskatīšana - 1997 |
Statistical Energy Analysis: An Overview, with Applications in Structural ... A. J. Keane,W. G. Price Priekšskatījums nav pieejams - 2005 |
Bieži izmantoti vārdi un frāzes
Acoust amplitude applied approach ASEA assumed assumption bandwidth behaviour boundary calculation complex components constraint conventional SEA coupled oscillators coupling loss factors deterministic dissipated power spectral distribution driving frequency dynamical systems energy analysis SEA energy flow ensemble average equations estimates example expression Fahy force Fourier free velocity frequencies of perfect frequency band frequency-average impedance input power internal loss factors Keane Langley Lyon matrix mean-square measured method mobility functions modal density modal energy modal overlap factor mode shapes natural frequencies number of modes overdetermined system perfect transmission plate power dissipated power flow power input power spectral density power transfer coefficients prediction probability points rain-on-the-roof excitation random relation resonance frequencies SEA model SEA parameters Skudrzyk Sound Vib spectra standard SEA statistical energy analysis statistical overlap factor stiffness structures symmetric theory time-average transmission coefficient values variation wave intensity wave power wavenumber wavetype Woodhouse ΣΣ
Atsauces uz šo grāmatu
Sound and Structural Vibration: Radiation, Transmission and Response Frank J. Fahy Ierobežota priekšskatīšana - 2007 |