Vibration and Acoustics of Composite Structures: Theory and Applications presents recent advances on the vibration and acoustics of elastic composite structures. The book guides readers through structural modeling and fluid-structure interactions of elastic structures made from fiber-reinforced, sandwich and functionally graded materials. To achieve this goal, the book presents a series of generalized higher-order shear deformable theories for composite straight/curved beams, plates and shells, which is not available in any other book. The book also provides originally proposed frequency and time-domain methods for structural-acoustic analyses of composite structures immersed in light and heavy acoustic fluid.
Many numerical examples are given to aid in physical insights and to provide benchmark computations of vibration and sound radiation of composite structures. This book is a useful source of information for scientists who need to develop skills in theoretical and/or numerical modeling in dynamics and acoustics of elastic structures.
Many numerical examples are given to aid in physical insights and to provide benchmark computations of vibration and sound radiation of composite structures. This book is a useful source of information for scientists who need to develop skills in theoretical and/or numerical modeling in dynamics and acoustics of elastic structures.
Table of Contents
1. Introduction2. Anisotropic Elasticity
3. Variational Principles of Linear Elastodynamics
4. Zig-zag Theories and Vibrations of Composite Laminated Beams, Plates and Shells
5. Three-dimensional Theory of Elasticity and Vibration of Composite Laminated Beams, Plates and Shells
6. Vibrations of Functionally Graded Beams, Plates and Shells
7. Boundary Integral Equations in Acoustics and Spectral Boundary Element Methods
8. Vibro-Acoustic Coupling Systems of Composite Structures