| Description |
1 online resource (721 p.) |
| Contents |
Cover -- Contents -- Preface -- 1 Introduction To Vibration and the Free Response -- 1.1 Introduction to Free Vibration -- 1.2 Harmonic Motion -- 1.3 Viscous Damping -- 1.4 Modeling and Energy Methods -- 1.5 Stifness -- 1.6 Measurement -- 1.7 Design Considerations -- 1.8 Stability -- 1.9 Numerical Simulation of the Time Response -- 1.10 Coulomb Friction and the Pendulum -- Problems -- MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 2 Response to Harmonic Excitation -- 2.1 Harmonic Excitation of Undamped Systems -- 2.2 Harmonic Excitation of Damped Systems |
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2.3 A lternative Representations -- 2.4 Base Excitation -- 2.5 Rotating Unbalance -- 2.6 Measurement Devices -- 2.7 Other Forms of Damping -- 2.8 Numerical Simulation and Design -- 2.9 Nonlinear Response Properties -- Problems -- MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 3 General Forced Response -- 3.1 Impulse Response Function -- 3.2 Response to an Arbitrary Input -- 3.3 Response to an Arbitrary Periodic Input -- 3.4 Transform Methods -- 3.5 Response to Random Inputs -- 3.6 Shock Spectrum -- 3.7 Measurement via Transfer Functions -- 3.8 Stability |
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3.9 Numerical Simulation of the Response -- 3.10 Nonlinear Response Properties -- Problems -- MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 4 Multiple-Degreeof-Freedom Systems -- 4.1 Two-Degree-of-Freedom Model (Undamped) -- 4.2 Eigenvalues and Natural Frequencies -- 4.3 Modal Analysis -- 4.4 More than Two Degrees of Freedom -- 4.5 Systems with Viscous Damping -- 4.6 Modal Analysis of the Forced Response -- 4.7 Lagrange's Equations -- 4.8 Examples -- 4.9 Computational Eigenvalue Problems for Vibration -- 4.10 Numerical Simulation of the Time Response -- Problems |
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MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 5 Design for Vibration Suppression -- 5.1 Acceptable Levels of Vibration -- 5.2 Vibration Isolation -- 5.3 Vibration Absorbers -- 5.4 Damping in Vibration Absorption -- 5.5 Optimization -- 5.6 Viscoelastic Damping Treatments -- 5.7 Critical Speeds of Rotating Disks -- Problems -- MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 6 Distributed-Parameter Systems -- 6.1 Vibration of a String or Cable -- 6.2 Modes and Natural Frequencies -- 6.3 Vibration of Rods and Bars -- 6.4 Torsional Vibration |
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6.5 Bending Vibration of a Beam -- 6.6 Vibration of Membranes and Plates -- 6.7 Models of Damping -- 6.8 Modal Analysis of the Forced Response -- Problems -- MATLAB Engineering Vibration Toolbox -- Toolbox Problems -- 7 Vibration Testingand Experimental Modal Analysis -- 7.1 Measurement Hardware -- 7.2 Digital Signal Processing -- 7.3 Random Signal Analysis in Testing -- 7.4 Modal Data Extraction -- 7.5 Modal Parameters by Circle Fitting -- 7.6 Mode Shape Measurement -- 7.7 Vibration Testing for Endurance and Diagnostics -- 7.8 Operational Deflection Shape Measurement -- Problems |
| Summary |
For one/two-semester introductory courses in vibration for undergraduates in Mechanical Engineering, Civil Engineering, Aerospace Engineering and MechanicsServing as both a text and reference manual, Engineering Vibration, 4e, connects traditional design-oriented topics, the introduction of modal analysis, and the use of MATLAB, Mathcad.. |
| Notes |
Description based upon print version of record |
|
MATLAB Engineering Vibration Toolbox |
| Form |
Electronic book
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| ISBN |
9780273785217 |
|
0273785214 |
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