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FluidStructure
Interactions, Vol. 1 



The leading reference on fluidstructure interaction fundamentals and piperelated problems by a renowned expert in the field  
Key Features
DescriptionThe first of two books concentrating on the dynamics of slender bodies within or containing axial flow, FluidStructure Interaction, Volume 1 covers the fundamentals and mechanisms giving rise to flowinduced vibration, with a particular focus on the challenges associated with pipes conveying fluid.
This volume has been thoroughly updated to reference the latest developments in the field, with a continued emphasis on the understanding of dynamical behaviour and analytical methods needed to provide longterm solutions and validate the latest computational methods and codes.
In this edition, Chapter 7 from Volume 2 has also been moved to Volume 1, meaning that Volume 1 now mainly treats the dynamics of systems subjected to internal flow, whereas in Volume 2 the axial flow is in most cases external to the flow or annular. Readership Engineers, researchers and graduate students across industries including mechanical, civil, aerospace, material, marine and offshore engineering involved in the analysis, maintenance and design of flexible structures that interact with internal and/or external fluid flow; Specialists in the fields of fluidstructure interaction, flowinduced vibration, dynamics and vibration. 

Preface for First and Second Edition Acknowledgements Introduction Concepts, Definitions and Methods Pipes Conveying Fluid: Linear Dynamics I Pipes Conveying Fluid: Linear Dynamics II Pipes Conveying Fluid: Nonlinear and Chaotic Dynamics Curved Pipes Conveying Fluid Cylindrical Shells Containing or Immersed in Flow: Basic Dynamics Epilogue Appendix A: A FirstPrinciples Derivation of the Equation of Motion of a Pipe Conveying Fluid Appendix B: Analytical Evaluation of bsr, csr and dsr Appendix C: Destabilization by Damping: T. Brooke Benjamin¡¯s Work Appendix D: Experimental Methods for Elastomer Pipes Appendix E: Timoshenko Equations of Motion and Associated Analysis Appendix F: Some of the Basic Methods for Nonlinear Dynamics Appendix G: Newtonian Derivation of Nonlinear Equations of Motion of a pipe Conveying Fluid Appendix H: Nonlinear Dynamics Theory Applied to a Pipe Conveying Fluid Appendix I: The Fractal Dimension from the Experimental PipeVibration Signal Appendix J: Detailed Analysis for the Derivation of the Equations of Motion of Chapter 6 Appendix K: Matrices for the Analysis of an Extensible Curved Pipe Conveying Fluid Appendix L: Matrices in Hybrid Analytical/FiniteElement Method of Lakis et al. Appendix M: Anisotropic Shells Appendix N: Nonlinear Motions of a Shell Conveying Fluid References Index 
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