Chapter 1 Vibration Engineering --
1.1 Study of Vibration 2 --
1.2 Application Areas 5 --
1.3 History of Vibration 10 --
Chapter 2 Time Response --
2.1 Undamped Oscillator 18 --
2.3 Oscillations in Fluid Systems 34 --
2.4 Damped Simple Oscillator 38 --
2.5 Forced Response 52 --
Chapter 3 Frequency Response --
3.1 Response to Harmonic Excitations 85 --
3.2 Transform Techniques 101 --
3.3 Mechanical Impedance Approach 116 --
3.4 Transmissibility Functions 123 --
3.5 Receptance Method 130 --
Chapter 4 Vibration Signal Analysis --
4.1 Frequency Spectrum 151 --
4.3 Fourier Analysis 160 --
4.4 Analysis of Random Signals 171 --
4.5 Other Topics of Signal Analysis 182 --
4.6 Resolution in Digital Fourier Results 184 --
4.7 Overlapped Processing 184 --
Chapter 5 Modal Analysis --
5.1 Degrees of Freedom and Independent Coordinates 197 --
5.2 System Representation 200 --
5.3 Modal Vibrations 207 --
5.4 Orthogonality of Natural Modes 212 --
5.5 Static Modes and Rigid Body Modes 213 --
5.6 Other Modal Formulations 223 --
5.7 Forced Vibration 230 --
5.8 Damped Systems 235 --
5.9 State-Space Approach 240 --
Chapter 6 Distributed-Parameter Systems --
6.1 Transverse Vibration of Cables 268 --
6.2 Longitudinal Vibration of Rods 284 --
6.3 Torsional Vibration of Shafts 290 --
6.4 Flexural Vibration of Beams 299 --
6.5 Damped Continuous Systems 328 --
6.6 Vibration of Membranes and Plates 332 --
7.1 Types of Damping 349 --
7.2 Representation of Damping in Vibration Analysis 359 --
7.3 Measurement of Damping 368 --
7.4 Interface Damping 380 --
Chapter 8 Vibration Instrumentation --
8.1 Vibration Exciters 400 --
8.2 Control System 415 --
8.3 Performance Specification 421 --
8.4 Motion Sensors and Transducers 428 --
8.5 Torque, Force, and Other Sensors 456 --
8.6 Component Interconnection 482 --
Chapter 9 Signal Conditioning and Modification --
9.2 Analog Filters 521 --
9.3 Modulators and Demodulators 539 --
9.4 Analog/Digital Conversion 548 --
9.5 Bridge Circuits 568 --
9.6 Linearizing Devices 577 --
9.7 Miscellaneous Signal-Modification Circuitry 586 --
9.8 Signal Analyzers and Display Devices 594 --
Chapter 10 Vibration Testing --
10.1 Representation of a Vibration Environment 611 --
10.2 Pretest Procedures 636 --
10.3 Testing Procedures 650 --
10.4 Product Qualification Testing 668 --
Chapter 11 Experimental Modal Analysis --
11.1 Frequency-Domain Formulation 629 --
11.2 Experimental Model Development 698 --
11.3 Curve-Fitting of Transfer Functions 702 --
11.4 Laboratory Experiments 713 --
11.5 Commercial EMA Systems 718 --
Chapter 12 Vibration Design and Control --
Shock and Vibration 732 --
12.1 Specification of Vibration Limits 732 --
12.2 Vibration Isolation 735 --
12.3 Balancing of Rotating Machinery 749 --
12.4 Balancing of Reciprocating Machines 762 --
12.5 Whirling of Shafts 771 --
12.6 Design Through Modal Testing 779 --
12.7 Passive Control of Vibration 787 --
12.8 Active Control of Vibration 805 --
12.9 Control of Beam Vibrations 816 --
Appendix A Dynamic Models and Analogies --
A.1 Model Development 840 --
A.3 Mechanical Elements 842 --
A.4 Electrical Elements 843 --
A.5 Thermal Elements 845 --
A.6 Fluid Elements 846 --
A.7 State-Space Models 848 --
Appendix B Newtonian and Lagrangian Mechanics --
B.1 Vector Kinematics 857 --
B.2 Newtonian (Vector) Mechanics 864 --
B.3 Lagrangian Mechanics 873 --
Appendix C Review of Linear Algebra --
C.1 Vectors and Matrices 879 --
C.2 Vector-Matrix Algebra 881 --
C.3 Matrix Inverse 884 --
C.6 System of Linear Equations 894 --
Appendix D Digital Fourier Analysis and FFT --
D.1 Unification of the Three Fourier Transform Types 895 --
D.2 Fast Fourier Transform (FFT) 898 --
D.3 Discrete Correlation and Convolution 902 --
D.4 Digital Fourier Analysis Procedures 904 --
Appendix E Reliability Considerations for Multicomponent Units --
E.1 Failure Analysis 911 --