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035 $a(OCoLC)ocn868885495
035 $a(NNC)12493396
040 $aOPELS$beng$erda$epn$cOPELS$dYDXCP$dCDX$dOCLCF$dUMC$dRRP$dOCLCQ$dKNOVL$dOCLCQ$dCOO$dGILDS$dU3W$dCEF$dLQU$dNJT$dOCLCQ$dOCLCO
019 $a1105189383$a1105570740
020 $a9780123973139$q(electronic bk.)
020 $a0123973139$q(electronic bk.)
020 $z9780123973122
020 $z0123973120
035 $a(OCoLC)868885495$z(OCoLC)1105189383$z(OCoLC)1105570740
050 4 $aTA357.5.F58
082 04 $a620.1064$223
049 $aZCUA
100 1 $aPaidoussis, M. P.,$eauthor.
245 10 $aFluid-structure interactions.$nVolume 1,$pSlender structures and axial flow /$cMichael Paidoussis.
246 30 $aSlender structures and axial flow
250 $aSecond edition.
264 1 $aAmsterdam :$bAcademic Press,$c2014.
300 $a1 online resource
336 $atext$btxt$2rdacontent
337 $acomputer$bc$2rdamedia
338 $aonline resource$bcr$2rdacarrier
500 $aPrevious edition: London: AP Professional, 1998.
504 $aIncludes bibliographical references and index.
520 $aThe first of two books concentrating on the dynamics of slender bodies within or containing axial flow, Fluid-Structure Interaction, Volume 1 covers the fundamentals and mechanisms giving rise to flow-induced 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 long-term 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. Provides an in-depth review of an extensive range of fluid-structure interaction topics, with detailed real-world examples and thorough referencing throughout for additional detail.Organized by structure and problem type, allowing you to dip into the sections that are relevant to the particular problem you are facing, with numerous appendices containing the equations relevant to specific problems. Supports development of long-term solutions by focusing on the fundamentals and mechanisms needed to understand underlying causes and operating conditions under which apparent solutions might not prove effective.
588 0 $aPrint version record.
505 0 $aCh. 1 Introduction -- 1.1. General overview -- 1.2. Classification of flow-induced vibrations -- 1.3. Scope and contents of this book -- ch. 2 Concepts, Definitions and Methods in Fluid-Structure Interactions -- 2.1. Discrete and distributed parameter systems -- 2.2. The fluid mechanics of fluid-structure interactions -- 2.3. Linear and nonlinear dynamics -- ch. 3 Pipes Conveying Fluid: Linear Dynamics I -- 3.1. Introduction -- 3.2. The fundamentals -- 3.3. The equations of motion -- 3.4. Pipes with supported ends -- 3.5. Cantilevered pipes -- 3.6. Systems with added springs, supports, masses and other modifications -- 3.7. Wave propagation in long pipes -- 3.8. Articulated pipes -- ch. 4 Pipes Conveying Fluid: Linear Dynamics II -- 4.1. Introduction -- 4.2. Nonuniform pipes -- 4.3. Aspirating pipes -- 4.4. Short pipes and refined flow modelling -- 4.5. Pipes with harmonically perturbed flow -- 4.6. Rotating cantilevered pipes -- 4.7. Forced vibration.
505 8 $a4.8. Applications -- 4.9. Concluding remarks -- ch. 5 Pipes Conveying Fluid: Nonlinear and Chaotic Dynamics -- 5.1. Introductory comments -- 5.2. The nonlinear equations of motion -- 5.3. Equations for articulated systems -- 5.4. Methods of solution and analysis -- 5.5. Pipes with supported ends -- 5.6. Articulated cantilevered pipes -- 5.7. Cantilevered pipes -- 5.8. Chaotic dynamics -- 5.9. Nonlinear parametric resonances -- 5.10. Oscillation-Induced flow -- 5.11. Concluding remarks -- ch. 6 Curved Pipes Conveying Fluid -- 6.1. Introduction -- 6.2. Formulation of the problem -- 6.3. Finite element analysis -- 6.4. Curved pipes with supported ends -- 6.5. Curved cantilevered pipes -- 6.6. Curved pipes with an axially sliding end -- ch. 7 Cylindrical Shells Containing or Immersed in Flow: Basic Dynamics -- 7.1. Introductory remarks -- 7.2. General dynamical behaviour -- 7.3. Refinements and diversification -- 7.4. Wave propagation and acoustic coupling.
505 8 $a7.5. Viscous and confinement effects -- 7.6. Nonlinear dynamics -- 7.7. Concluding remarks -- Epilogue -- Appendix A A First-Principles Derivation of the Equation of Motion of a Pipe Conveying Fluid -- Appendix B Analytical Evaluation of bsr1 Csr and dsr -- Appendix C Destabilization by Damping: T. Brooke Benjamin's Work -- Appendix D Experimental Methods for Elastomer Pipes -- D.1. Materials, equipment and procedures -- D.2. Short pipes, shells and cylinders -- D.3. Flexural rigidity and damping constants -- D.4. Measurement of frequencies and damping -- Appendix E The Timoshenko Equations of Motion and Associated Analysis -- E.1. The equations of motion -- E.2. The eigenfunctions -- E.3. The integrals Ikn -- Appendix F Some of the Basic Methods of Nonlinear Dynamics -- F.1. Lyapunov method -- F.2. Centre manifold reduction -- F.3. Normal forms -- F.4. The method of averaging -- F.5. Bifurcation theory and unfolding parameters -- F.6. Partial differential equations.
505 8 $aAppendix G Newtonian Derivation of the Nonlinear Equations of Motion of a Pipe Conveying Fluid -- G.1. Cantilevered pipe -- G.2. Pipe fixed at both ends -- Appendix H Nonlinear Dynamics Theory Applied to a Pipe Conveying Fluid -- H.1. Centre manifold -- H.2. Normal form -- Appendix I The Fractal Dimension from the Experimental Pipe-Vibration Signal -- Appendix J Detailed Analysis for the Derivation of the Equations of Motion of Chapter 6 -- J.1. Relationship between (Xo, Yo, Zo and x, y, z) -- J.2. The expressions for curvature and twist -- J.3. Derivation of the fluid-acceleration vector -- J.4. The equations of motion for the pipe -- Appendix K Matrices for the Analysis of an Extensible Curved Pipe Conveying Fluid -- Appendix L Matrices in Hybrid Analytical/Finite-Element Method of Lakis et al -- L.1. Matrices for a cylindrical shell in vacuo -- L.2. Matrices associated with fluid flow in a cylindrical shell -- Appendix M Anisotropic Shells -- Appendix N Nonlinear Motions of a Shell Conveying Fluid -- N.1. The particular solution, Fp -- N.2. The discretized equations of motion.
650 0 $aFluid-structure interaction.
650 6 $aInteraction fluide-structure.
650 7 $aFluid-structure interaction.$2fast$0(OCoLC)fst00928031
655 4 $aElectronic books.
776 08 $iPrint version:$aPaidoussis, M.P.$tFluid-structure interactions. Volume 1, Slender structures and axial flow.$bSecond edition$z9780123973122$w(OCoLC)857524156
856 40 $uhttp://www.columbia.edu/cgi-bin/cul/resolve?clio12493396$zACADEMIC - Mechanics & Mechanical Engineering
852 8 $blweb$hEBOOKS