Chapter 1 Introduction; 1.1 Objective of the book; 1.2 Outline of book -- Chapter 2 Methods of modeling damping; 2.1 Introduction; 2.2 Macro mechanical approach; 2.3 Micromechanical approach; 2.4 Nonlinear damping; 2.5 Conclusion -- Chapter 3 Measurement of damping; 3.1 Measurement of damping from decay plot; 3.2 A generalized method of finding damping; 3.3 Multimode evaluation of damping; 3.4 Damping ratio for different modes of deformation; 3.5 Resonalyser method of evaluation of damping coefficient matrix; 3.6 Frequency dependence of damping; 3.7 Concluding remarks -- Chapter 4 Micromechanical study of two-phase composite; 4.1 Micromechanical models; 4.2 Fiber packing geometry; 4.3 Finite element approach; 4.4 Mathematical model for frequency dependence; 4.5 Results and discussions; 4.6 Conclusion -- Chapter 5 Modeling of three phase composite; 5.1 Mathematical modeling of three phase composite; 5.2 Finite elements model; 5.3 Frequency dependence of three phase composite; 5.4 Results and discussion; 5.5 Conclusion -- Chapter 6 Modeling of nonlinear damping; 6.1 Introduction; 6.2 Mathematical model; 6.3 Results and discussions; 6.4 Conclusion -- Chapter 7 Applications of damping and principles of vibration control; 7.1 Applications of damping; 7.2 Principles of vibration control
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Description based on online resource; title from digital title page (viewed on March 16, 2023).