Damping in fiber reinforced composite materials /

Damping in Fiber Reinforced Composite Materials starts with an introduction to the basic concepts of damping in composite materials. Methods of modeling damping are then covered, along with recent developments in measuring techniques, both local, like polar scanning and global techniques like the Re...

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Bibliographic Details
Main Authors: Kumar, Pramod (Mechanical engineer) (Author), Singh, S. P. (Author), Sharma, Sumit, 1985- (Author)
Corporate Author: ScienceDirect (Online service)
Format: eBook
Language:English
Published: Cambridge, MA : Woodhead Publishing, an imprint of Elsevier, [2023]
Series:Woodhead Publishing series in composites science and engineering.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • 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