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Vibration Fatigue by Spectral Methods
From Structural Dynamics to Fatigue Damage – Theory and Experiments
Bridges the gap between structural dynamics and fatigue
Janko Slavi? (Author), Miha Boltezar (Author), Matjaz Mrsnik (Author), Martin Cesnik (Author), Jaka Javh (Author)
9780128221907
Paperback, published 20 August 2020
230 pages, Approx. 130 illustrations (130 in full color)
22.9 x 15.1 x 1.6 cm, 0.36 kg
Vibration Fatigue by Spectral Methods relates the structural dynamics theory to the high-cycle vibration fatigue. The book begins with structural dynamics theory and relates the uniaxial and multiaxial vibration fatigue to the underlying structural dynamics and signal processing theory. Organized in two parts, part I gives the theoretical background and part II the selected experimental research. The time- and frequency- domain aspects of signal processing in general, related to structural dynamics and counting methods are covered in detail. It also covers all the underlying theory in structural dynamics, signal processing, uniaxial & multiaxial fatigue; including non-Gaussianity and non-stationarity. Finally, it provides the latest research on multiaxial vibration fatigue and the non-stationarity and non-Gaussianity effects. This book is for engineers, graduate students, researchers and industry professionals working in the field of structural durability under random loading and vibrations and also those dealing with fatigue of materials and constructions.
1. Introduction Part 1: Theoretical Background2. Structural Dynamics3. Signal Processing4. Experimental Modal Analysis5. Uniaxial Vibration Fatigue6. Multiaxial Vibration Fatigue7. Vibration Fatigue Analysis Using Modal Decomposition8. Identification of Non-stationary and Non-Gaussian Excitation Part 2: Experimental Research9. Harmonic Accelerated Vibration-fatigue Testing10. Harmonic vs. Random Excitation11. Frequency Domain Methods for Fatigue Life Estimation12. Multiaxial Vibration Fatigue13. Vibration Fatigue for Non-stationary and Non-Gaussian Excitation
Subject Areas: Mechanical engineering [TGB]
