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183   $acr
200 10$aFlow-Induced Vibrations $eAn Engineering Guide
205   $a1st ed.
210   $aNewburyport $cDover Publications$d2012
215   $a1 online resource (667 p.)
225 1 $aDover Civil and Mechanical Engineering
300   $aDescription based upon print version of record.
311 08$a9780486442822 
311 08$a0486442829 
327   $aTitle Page; Copyright Page; Table of Contents; Preface; Reviewers; List of symbols; CHAPTER 1 - Introduction; 1.1 GOALS AND SCOPE OF MONOGRAPH; 1.2 SOURCES AND ASSESSMENT OF FLOW-INDUCED VIBRATIONS; CHAPTER 2 - Body oscillators; 2.1 OVERVIEW AND DEFINITIONS; 2.2 FREE VIBRATION; 2.3 FORCED VIBRATION; 2.4 SELF-EXCITED VIBRATION; 2.5 PARAMETRICALLY EXCITED VIBRATION; 2.6 GENERALIZATION FOR DISTRIBUTED-MASS SYSTEMS; CHAPTER 3 - Fluid loading and response of body oscillators; 3.1 DISTINCTION OF TYPES OF FLUID LOADING; 3.2 ADDED MASS AND FLUID DAMPING
327   $a3.3 DESCRIPTION OF FLOW-INDUCED LOADING AND STRUCTURAL RESPONSE3.4 STATIC INSTABILITY (DIVERGENCE); CHAPTER 4 - Fluid oscillators; 4.1 OVERVIEW AND INTRODUCTION; 4.2 DISCRETE-MASS FLUID OSCILLATORS; 4.3 DISTRIBUTED-MASS FLUID OSCILLATORS; 4.4 EFFECTS OF MEAN FLOW ON RESONATOR CHARACTERISTICS; CHAPTER 5 - Vibrations due to extraneously induced excitation; 5.1 SOURCES OF EXTRANEOUSLY INDUCED EXCITATION (EIE); 5.2 EXCITATION DUE TO TURBULENCE; 5.3 CONTROL OF EXTRANEOUSLY INDUCED EXCITATION; 5.4 PRACTICAL EXAMPLES; CHAPTER 6 - Vibrations due to instability-induced excitation
327   $a6.1 SOURCES OF INSTABILITY-INDUCED EXCITATION (IIE)6.2 AMPLIFICATION MECHANISMS; 6.3 EXCITATION DUE TO VORTEX SHEDDING; 6.4 EXCITATION DUE TO IMPINGING SHEAR LAYERS; 6.5 EXCITATION DUE TO INTERFACE INSTABILITY; 6.6 EXCITATION DUE TO BISTABLE-FLOW INSTABILITY; 6.7 EXCITATION DUE TO SWIRLING-FLOW INSTABILITY; 6.8. CONTROL OF INSTABILITY-INDUCED EXCITATION / PRACTICAL EXAMPLES; CHAPTER 7 - Vibrations due to movement-induced excitation; 7.1 SOURCES OF MOVEMENT-INDUCED EXCITATION (MIE); 7.2 METHODS OF ANALYZING MOVEMENT-INDUCED EXCITATION; 7.3 EXCITATION NOT DEPENDENT ON COUPLING
327   $a7.4 EXCITATION INVOLVING COUPLING WITH FLUID-FLOW PULSATIONS7.5 EXCITATION INVOLVING MODE COUPLING; 7.6 EXCITATION INVOLVING MULTIPLE-BODY COUPLING; 7.7 CONTROL OF MOVEMENT-INDUCED EXCITATION; CHAPTER 8 - Vibrations due to excitation of fluid oscillators; 8.1 SOURCES OF EXCITATION AND DAMPING; 8.2 EXTRANEOUSLY INDUCED EXCITATION OF FLUID OSCILLATORS; 8.3 INSTABILITY-INDUCED EXCITATION OF FLUID OSCILLATORS; 8.4 MOVEMENT-INDUCED EXCITATION OF FLUID OSCILLATORS; 8.5 CONTROL OF FLUID-OSCILLATOR EXCITATION; 8.6 PRACTICAL EXAMPLES; CHAPTER 9 - Examples of structural vibrations
327   $a9.1 PRISMATIC BODIES AND GRIDS OF PRISMS (TRASHRACKS)9.2 GATES AND GATE COMPONENTS; REFERENCES; Name index; Errata list
330   $aDespite their variety, the vibration phenomena from many different engineering fields can be classified into a relatively few basic excitation mechanisms. The classification enables engineers to identify all possible sources of excitation in a given system and to assess potential dangers. This graduate-level text presents a synthesis of research results and practical experience from disparate fields in the form of engineering guidelines. It is particularly geared toward assessing the possible sources of excitation in a flow system, in identifying the actual danger spots, and in finding appropr
410  0$aDover Civil and Mechanical Engineering
606   $aVibration
606   $aFluid dynamics
606   $aStructural dynamics
606   $aCivil & Environmental Engineering$2HILCC
606   $aEngineering & Applied Sciences$2HILCC
606   $aCivil Engineering$2HILCC
615  0$aVibration.
615  0$aFluid dynamics.
615  0$aStructural dynamics.
615  7$aCivil & Environmental Engineering
615  7$aEngineering & Applied Sciences
615  7$aCivil Engineering
676   $a511/.43
700   $aNaudascher$b Eduard$0439447
701   $aRockwell$b Donald$0439448
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906   $aBOOK
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