Cover image for Engineering vibration
Title:
Engineering vibration
Personal Author:
Edition:
4th edition.
Publication Information:
Boston : Pearson, 2014
Physical Description:
xii, 707 p. : illustrations ; 24 cm
ISBN:
9780132871693
Subject Term:

Available:*

Library
Item Barcode
Call Number
Material Type
Item Category 1
Status
Searching...
33000000001322 TA355 I65 2014 Open Access Book Book
Searching...

On Order

Summary

Summary

Intended for use in one/two-semester introductory courses in vibration for undergraduates in Mechanical Engineering, Civil Engineering, Aerospace Engineering and Mechanics. This text is also suitable for readers with an interest in Mechanical Engineering, Civil Engineering, Aerospace Engineering and Mechanics.

Serving 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, or Mathematica. The author provides an unequaled combination of the study of conventional vibration with the use of vibration design, computation, analysis and testing in various engineering applications.


Table of Contents

Prefacep. viii
1 Introduction to Vibration and the Free Responsep. 1
1.1 Introduction to Free Vibrationp. 2
1.2 Harmonic Motionp. 13
1.3 Viscous Dampingp. 21
1.4 Modeling and Energy Methodsp. 31
1.5 Stiffnessp. 46
1.6 Measurementp. 58
1.7 Design Considerationsp. 63
1.8 Stabilityp. 68
1.9 Numerical Simulation of the Time Responsep. 72
1.10 Coulomb Friction and the Pendulump. 81
Problemsp. 95
MATLAB Engineering Vibration Toolboxp. 115
Toolbox Problemsp. 116
2 Response to Harmonic Excitationp. 117
2.1 Harmonic Excitation of Undamped Systemsp. 118
2.2 Harmonic Excitation of Damped Systemsp. 130
2.3 Alternative Representationsp. 144
2.4 Base Excitationp. 151
2.5 Rotating Unbalancep. 160
2.6 Measurement Devicesp. 166
2.7 Other Forms of Dampingp. 170
2.8 Numerical Simulation and Designp. 180
2.9 Nonlinear Response Propertiesp. 188
Problemsp. 197
MATLAB Engineering Vibration Toolboxp. 214
Toolbox Problemsp. 214
3 General Forced Responsep. 216
3.1 Impulse Response Functionp. 217
3.2 Response to an Arbitrary Inputp. 226
3.3 Response to an Arbitrary Periodic Inputp. 235
3.4 Transform Methodsp. 242
3.5 Response to Random Inputsp. 247
3.6 Shock Spectrump. 255
3.7 Measurement via Transfer Functionsp. 260
3.8 Stabilityp. 262
3.9 Numerical Simulation of the Responsep. 267
3.10 Nonlinear Response Propertiesp. 279
Problemsp. 287
MATLAB Engineering Vibration Toolboxp. 301
Toolbox Problemsp. 301
4 Multiple-Degree-of-Freedom Systemsp. 303
4.1 Two-Degree.-of-Freedom Model (Undamped)p. 304
4.2 Eigenvalues and Natural Frequenciesp. 318
4.3 Modal Analysisp. 332
4.4 More Than Two Degrees of Freedomp. 340
4.5 Systems with Viscous Dampingp. 356
4.6 Modal Analysis of the Forced Responsep. 362
4.7 Lagrange's Equationsp. 369
4.8 Examplesp. 377
4.9 Computational Eigenvalue Problems for Vibrationp. 389
4.10 Numerical Simulation of the Time Responsep. 407
Problemsp. 415
MATLAB Engineering Vibration Toolboxp. 433
Toolbox Problemsp. 433
5 Design for Vibration Suppressionp. 435
5.1 Acceptable Levels of Vibrationp. 436
5.2 Vibration Isolationp. 442
5.3 Vibration Absorbersp. 455
5.4 Damping in Vibration Absorptionp. 463
5.5 Optimizationp. 471
5.6 Viscoelastic Damping Treatmentsp. 479
5.7 Critical Speeds of Rotating Disksp. 485
Problemsp. 491
MATLAB Engineering Vibration Toolboxp. 501
Toolbox Problemsp. 501
6 Distributed-Parameter Systemsp. 502
6.1 Vibration of a String or Cablep. 504
6.2 Modes and Natural Frequenciesp. 508
6.3 Vibration of Rods and Barsp. 519
6.4 Torsional Vibrationp. 525
6.5 Bending Vibration of a Beamp. 532
6.6 Vibration of Membranes and Platesp. 544
6.7 Models of Dampingp. 550
6.8 Modal Analysis of the Forced Responsep. 556
Problemsp. 566
MATLAB Engineering Vibration Toolboxp. 572
Toolbox Problemsp. 572
7 Vibration Testing and Experimental Modal Analysisp. 573
7.1 Measurement Hardwarep. 575
7.2 Digital Signal Processingp. 579
7.3 Random Signal Analysis in Testingp. 584
7.4 Modal Data Extractionp. 588
7.5 Modal Parameters by Circle Fittingp. 591
7.6 Mode Shape Measurementp. 596
7.7 Vibration Testing for Endurance and Diagnosticsp. 606
7.8 Operational Deflection Shape Measurementp. 609
Problemsp. 611
MATLAB Engineering Vibration Toolboxp. 615
Toolbox Problemsp. 616
8 Finite Element Methodp. 617
8.1 Example: The Barp. 619
8.2 Three-Element Barp. 625
8.3 Beam Elementsp. 630
8.4 Lumped-Mass Matricesp. 638
8.5 Trussesp. 641
8.6 Model Reductionp. 646
Problemsp. 649
MATLAB Engineering Vibration Toolboxp. 656
Toolbox Problemsp. 656
Appendix A Complex Numbers and Functionsp. 657
Appendix B Laplace Transformsp. 663
Appendix C Matrix Basicsp. 668
Appendix D The Vibration Literaturep. 680
Appendix E List of Symbolsp. 682
Appendix F Codes and Web Sitesp. 687
Appendix G Engineering Vibration Toolbox and Web Supportp. 688
Referencesp. 690
Answers to Selected Problemsp. 692
Indexp. 699