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Beschreibung
Engineers are becoming increasingly aware of the problems caused by vibration in engineering design, particularly in the areas of structural health monitoring and smart structures. Vibration is a constant problem as it can impair performance and lead to fatigue, damage and the failure of a structure. Control of vibration is a key factor in preventing such detrimental results.
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Technische Daten
Erscheinungsdatum
30.06.2006
Sprache
Englisch
EAN
9780470010518
Herausgeber
John Wiley & Sons
Sonderedition
Nein
Autor
Daniel J. Inman
Seitenanzahl
388
Auflage
1
Einbandart
Gebundene Ausgabe
Autorenporträt
Daniel J. Inman; Director, Center for Intelligent Material Systems and Structures, 310 Durham Hall, Mail Code 0261, Virginia Tech, Blacksburg, VA 24061 USA Since 1980, he has published five books (on vibration, control, statics, and dynamics), eight software manuals, seven book chapters, over 160 journal papers and 300 proceedings papers, graduated 35 Ph.D. students and supervised more than 55 MS degrees. He is currently Technical Editor of the Journal of Intelligent Material Systems and Structures (1999-2004), Technical Editor of the Shock and Vibration Digest (1998-2001), and Technical Editor of the journal Shock and Vibration (1999-2004).
Schlagwörter
Mechanical Engineering, Aeronautic & Aerospace Engineering, Regelungstechnik, Elektrotechnik u. Elektronik, Luft- u. Raumfahrttechnik, Electrical & Electronics Engineering, Schaden (Techn.), Maschinenbau, Vibration, Control Systems Technology
Inhaltsverzeichnis
Preface.
1. SINGLE DEGREE OF FREEDOM SYSTEMS.
Introduction.
Spring-Mass System.
Spring-Mass-Damper System.
Forced Response.
Transfer Functions and Frequency Methods.
Measurement and Testing.
Stability.
Design and Control of Vibrations.
Nonlinear Vibrations.
Computing and Simulation in Matlab.
Chapter Notes.
References.
Problems.
2. LUMPED PARAMETER MODELS.
Introduction.
Classifications of Systems.
Feedback Control Systems.
Examples.
Experimental Models.
Influence Methods.
Nonlinear Models and Equilibrium.
Chapter Notes.
References.
Problems.
3. MATRICES AND THE FREE RESPONSE.
Introduction.
Eigenvalues and Eigenvectors.
Natural Frequencies and Mode Shapes.
Canonical Forms.
Lambda Matrices.
Oscillation Results.
Eigenvalue Estimates.
Computational Eigenvalue Problems in Matlab.
Numerical Simulation of the Time Response in Matlab.
Chapter Notes.
References.
Problems.
4. STABILITY.
Introduction.
Lyapunov Stability.
Conservative Systems.
Systems with Damping.
Semidefinite Damping.
Gyroscopic Systems.
Damped Gyroscopic Systems.
Circulatory Systems.
Asymmetric Systems.
Feedback Systems.
Stability in the State Space.
Stability Boundaries.
Chapter Notes.
References.
Problems.
5. FORCED RESPONSE OF LUMPED PARAMETER SYSTEMS.
Introduction.
Response via State Space Methods.
Decoupling Conditions and Modal Analysis.
Response of Systems with Damping.
Bounded-Input, Bounded-Output Stability.
Response Bounds.
Frequency Response Methods.
Numerical Simulations in Matlab.
Chapter Notes.
References.
Problems.
6. DESIGN CONSIDERATIONS.
Introduction.
Isolators and Absorbers.
Optimization Methods.
Damping Design.
Design Sensitivity and Redesign.
Passive and Active Control.
Design Specifications.
Model Reduction.
Chapter Notes.
References.
Problems.
7. CONTROL OF VIBRATIONS.
Introduction.
Controllability and Observability.
Eigenstructure Assignment.
Optimal Control.
Observers (Estimators).
Realization.
Reduced-Order Modeling.
Modal Control in State Space.
Modal Control in Physical Space.
Robustness.
Positive Position Feedback Control.
Matlab Commands for Control Calculations.
Chapter Notes.
References.
Problems.
8. VIBRATION MEASUREMENT.
Introduction.
Measurement Hardware.
Digital Signal Processing.
Random Signal Analysis.
Modal Data Extraction (Frequency Domain).
Modal Data Extraction (Time Domain).
Model Identification.
Model Updating.
Chapter Notes.
References.
Problems.
9. DISTRIBUTED PARAMETER MODELS.
Introduction.
Vibrations of Strings.
Rods and Bars.
Vibration of Beams.
Membranes and Plates.
Layered Materials.
Viscous Damping.
Chapter Notes.
References.
Problems.
10. FORMAL METHODS OF SOLUTION.
Introduction.
Boundary Value Problems and Eigenfunctions.
Modal Analysis of the Free Response.
Modal Analysis in Damped Systems.
Transform Methods.
Green's Functions.
Chapter Notes.
References.
Problems.
11. OPERATORS AND THE FREE RESPONSE.
Introduction.
Hilbert Spaces.
Expansion Theorems.
Linear Operators.
Compact Operators.
Theoretical Modal Analysis.
Eigenvalue Estimates.
Enclosure Theorems.
Oscillation Theory.
Chapter Notes.
References.
Problems.
12. FORCED RESPONSE AND CONTROL.
Introduction.
Response by Modal Analysis.
Modal Design Criteria.
Combined Dynamical Systems.
Passive Control and Design.
Distribution Modal Control.
Nonmodal Distributed Control.
State Space Control Analysis.
Chapter Notes.
References.
Problems.
13. APPROXIMATIONS OF DISTRIBUTED PARAMETER MODELS.
Introduction.
Modal Truncation.
Rayleigh- Ritz-Galerkin Approximations.
Finite Element Method.
Substructure Analysis.
Truncation in the Presence of Control.
Impedance Method of Truncation and Control.
Chapter Notes.
References.
Problems.
APPENDIX A: COMMENTS ON UNITS.
APPENDIX B: SUPPLEMENTARY MATHEMATICS.
Index.
Höhe
244 mm
Breite
16.8 cm
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