Engineering Vibration / Edition 1

Engineering Vibration / Edition 1

by Daniel J. Inman, D. J. Inman
     
 

ISBN-10: 0135185319

ISBN-13: 9780135185315

Pub. Date: 01/28/1996

Publisher: Prentice Hall Professional Technical Reference

Serving as both text and reference manual, this book connects traditional design-oriented topics, the introduction of modal analysis, and the use MATLAB®. The author provides an unequaled combination of the study of conventional vibration with the use of vibration design, analysis and testing in various engineering applications.

Features:

  • Special-interest

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Overview

Serving as both text and reference manual, this book connects traditional design-oriented topics, the introduction of modal analysis, and the use MATLAB®. The author provides an unequaled combination of the study of conventional vibration with the use of vibration design, analysis and testing in various engineering applications.

Features:

  • Special-interest windows utilized throughout the text - Placed at points where prior or background information summaries are required. Remind students of essential information pertinent to the text material, preventing them from flipping to previous chapters or reference texts for formulas or other information.
  • Examines topics that reflect some of the recent advances in vibration technology, changes in ABET criteria and the increased importance of both engineering design and modal analysis.
  • Almost every topic contains design-related examples or discussions (32 of the 148 solved examples feature design).
  • Incorporates MATLAB® Vibration Toolbox throughout - Allowing students to conduct and explore vibration analysis.
  • Toolbox offers professional quality computer analyses - Including basics, introduction to model analysis with actual experimental data files and finite elements. Students are challenged with over 65 computer problems (645 problems in all) including use of manufacture's design charts, measurement analysis, and matrix eigenvalue computing for frequencies and modes.

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Product Details

ISBN-13:
9780135185315
Publisher:
Prentice Hall Professional Technical Reference
Publication date:
01/28/1996
Edition description:
Older Edition
Pages:
560
Product dimensions:
7.23(w) x 9.59(h) x 1.05(d)

Table of Contents

Prefacexi
1Introduction1
1.1Introduction to Free Vibration2
1.2Harmonic Motion8
1.3Viscous Damping14
1.4Modeling and Energy Methods23
1.5Stiffness34
1.6Measurement43
1.7Design Considerations48
1.8Stability53
1.9Numerical Simulation of the Time Response56
1.10Coulomb Friction and the Pendulum65
Problems77
Matlab Engineering Vibration Toolbox87
Toolbox Problems88
2Response to Harmonic Excitation89
2.1Harmonic Excitation of Undamped Systems90
2.2Harmonic Excitation of Damped Systems97
2.3Alternative Representations106
2.4Base Excitation112
2.5Rotating Unbalance120
2.6Measurement125
2.7Other Forms of Damping129
2.8Numerical Simulation and Design139
2.9Nonlinear Response Properties147
Problems156
Matlab Engineering Vibration Toolbox167
Toolbox Problems167
3General Forced Response168
3.1Impulse Response Function170
3.2Response to an Arbitrary Input177
3.3Response to an Arbitrary Periodic Input183
3.4Transform Methods190
3.5Response to Random Inputs194
3.6Shock Spectrum202
3.7Measurement via Transfer Functions206
3.8Stability209
3.9Numerical Simulation of the Response213
3.10Nonlinear Response Properties224
Problems232
Matlab Engineering Vibration Toolbox242
Toolbox Problems242
4Multiple-Degree-of-Freedom Systems243
4.1Two-Degree-of-Freedom Model (Undamped)244
4.2Eigenvalues and Natural Frequencies255
4.3Modal Analysis267
4.4More Than Two Degrees of Freedom275
4.5Systems with Viscous Damping289
4.6Modal Analysis of the Forced Response294
4.7Lagrange's Equations300
4.8Examples307
4.9Computational Eigenvalue Problems of Vibration319
4.10Numerical Simulation of the Time Response337
Problems345
Matlab Engineering Vibration Toolbox357
Toolbox Problems357
5Design for Vibration Suppression359
5.1Acceptable Levels of Vibration360
5.2Vibration Isolation366
5.3Vibration Absorbers377
5.4Damping in Vibration Absorption384
5.5Optimization391
5.6Viscoelastic Damping Treatments399
5.7Critical Speeds of Rotating Disks404
5.8Active Vibration Suppression410
5.9Practical Isolation Design412
Problems420
Matlab Engineering Vibration Toolbox430
Toolbox Problems430
6Distributed-Parameter Systems431
6.1Vibration of a String or Cable433
6.2Modes and Natural Frequencies436
6.3Vibration of Rods and Bars446
6.4Torsional Vibration452
6.5Bending Vibration of a Beam458
6.6Vibration of Membranes and Plates470
6.7Models of Damping475
6.8Modal Analysis and the Forced Response480
Problems487
Matlab Engineering Vibration Toolbox493
Toolbox Problems493
7Vibration Testing and Experimental Modal Analysis495
7.1Measurement Hardware497
7.2Digital Signal Processing501
7.3Random Signal Analysis in Testing506
7.4Modal Data Extraction509
7.5Model Parameter by Circle Fitting513
7.6Mode Shape Measurement517
7.7Vibration Testing for Endurance and Diagnostics523
7.8Operational Deflection Shape Measurement526
Problems528
Matlab Engineering Vibration Toolbox532
Toolbox Problems532
8Finite Element Method533
8.1Example: The Bar535
8.2Three-Element Bar541
8.3Beam Elements546
8.4Lumped Mass Matrices553
8.5Trusses556
8.6Model Reduction560
Problems563
Matlab Engineering Vibration Toolbox570
Toolbox Problems570
Appendix AComplex Numbers and Functions571
Appendix BLaplace Transforms577
Appendix CMatrix Basics582
Appendix DThe Vibration Literature594
Appendix EList of Symbols595
Appendix FIntroduction to Matlab, Mathcad and Mathematica600
Appendix GEngineering Vibration Toolbox and Web Support601
References603
Answers to Selected Problems605
Index611

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