 |
|
| ENCYCLOPEDIA OF VIBRATION, THREE-VOLUME SET, 1-3
| |
| | |
|
|
To order this title, and for more information, click here
Edited By
David Ewins, Imperial College of Science and Technology, London, U.K.
Simon Braun, Technion-Israel Institute of Technology, Haifa, Israel
Singiresu Rao, University of Miami, Florida, U.S.A.
Description
The Encyclopedia of Vibration is the first resource to cover this field so comprehensively. Approximately 190 articles
cover everything from basic vibration theory to ultrasonics, from both fundamental and applied standpoints. Areas covered include vibrations
in machines, buildings and other structures, vehicles, ships, and aircraft, as well as human response to vibration.
Each article provides
a concise and authoritative introduction to a topic. The Encyclopedia includes essential facts, background information,
and techniques for modeling, analysis, design, testing, and control of vibration. It is highlighted with numerous illustrations and
is structured to provide easy access to required information.
Audience
Researchers, practicing engineers, and high-level students in the fields of mechanical, civil, aeronautical, and electrical engineering;
also specialists in acoustics and vibration.
Members of the following organizations:
UK & Europe- Institution of Mechanical Engineers
(IMechE)......UK-based international organisation: http://www.imeche.org.uk/ Institution of Civil Engineers......UK-based international
organisation: http://www.ice.org.uk/ Institute of Sound & Vibration European Acoustics Association
US American Society of Mechanical
Engineers (ASME) American Society of Civil Engineers (ASCE) Acoustical Society of America Institute of Electrical & Electronic Engineers
(IEEE) Society for Experimental Mechanics (SEM) International Institute of Acoustics & Vibration (IIAV)......http://www.iiav.org/
Contents
@ti:Absorbers, Vibration
@au:Valder Steffen, Jr, and Domingo Rade, Federal University of Uberlandia, Brazil
@ti:Active Control of Civil
Structures
@au:T T (Larry) Soong, MCEER, SUNY Buffalo, USA, and B F Spencer, Jr, USA
@ti:Active Control of Vehicle Vibration
@au:Mehdi
Ahmadian, Virginia Polytechnic Institute & State University, USA
@ti:Active Isolation
@au:Steve Griffin, AFRL/VSSV, USA, and Dino Sciulli,
Virginia, USA
@ti:Active Vibration Suppression
@au:Daniel Inman, Virginia Polytechnic Institute & State University, USA
@ti:Actuators
and Smart Structures
@au:Victor Giurgiutiu, University of South Carolina, USA
@ti:Adaptive Filters
@au:Stephen J Elliott, University
of Southampton, UK
@ti:Aeroelastic Response
@au:J E Cooper, University of Manchester, UK
@ti:Averaging
@au:Simon Braun, Technion - Israel
Institute of Technology, Israel
@ti:Balancing
@au:R Bigret, Drancy, France
@ti:Basic Principles
@au:Giora Rosenhouse, Technion City,
Israel
@ti:Beams
@au:Richard A Scott, University of Michigan, USA
@ti:Bearing Diagnostics
@au: K McKee and C James Li, Rensselaer Polytechnic
Institute, USA
@ti:Bearing Vibrations
@au:R Bigret, Drancy, France
@ti:Belts
@au:L Zhang and J W Zu, University of Toronto, Canada
@ti:Blades
and Bladed Disks
@au:R Bigret, Drancy, France
@ti:Boundary Conditions
@au:Giora Rosenhouse, Technion City, Israel
@ti:Boundary Element
Methods
@au:Friedel Hartmann, University of Kassel, Germany
@ti:Bridges
@au:Singiresu S Rao, University of Miami, USA
@ti:Cables
@au:Noel
C Perkins, University of Michigan, USA
@ti:Cepstrum Analysis
@au:Bob Randall, University of New South Wales, Australia
@ti:Chaos
@au:Philip
J Holmes, Princeton University, USA
@ti:Columns
@au:Isaac Elishakoff, Florida Atlantic University, USA, and C W Bert, University of Oklahoma,
USA
@ti:Commercial Software
@au:Guy Robert, Liege, Belgium
@ti:Comparison of Vibration Properties: Comparison of Spatial Properties
@au:Mircea
Rades, University Politechnica of Bucharest, Romania
@ti:Comparison of Vibration Properties: Comparison of Modal Properties
@au:Mircea
Rades, University Politechnica of Bucharest, Romania
@ti:Comparison of Vibration Properties: Comparison of Response Properties
@au:Mircea
Rades, University Politechnica of Bucharest, Romania
@ti:Computation for Transient and Impact Dynamics
@au:David J Benson, University
of California, San Diego, USA, and John Hallquist, Livermore Software Technology Corporation (LSTC), USA
@ti:Continuous Methods
@au:C
W Bert, University of Oklahoma, USA
@ti:Correlation Functions
@au:Simon Braun, Technion - Israel Institute of Technology, Israel
@ti:Crash
@au:Victor H Mucino, West Virginia University, USA
@ti:Critical Damping
@au:Daniel Inman, Virginia Polytechnic Institute & State University,
USA
@ti:Damping in FE Models
@au:George A Lesieutre, Pennsylvania State University, USA
@ti:Damping Materials
@au:Eric E Ungar, Acentech,
Inc, USA
@ti:Damping Measurement
@au:D J Ewins, Imperial College of Science, Technology and Medicine, UK
@ti:Damping Models
@au:Daniel
Inman, Virginia Polytechnic Institute & State University, USA
@ti:Damping Mounts
@au:Jian-Qiao Sun, University of Delaware, USA
@ti:Damping,
Active
@au:Amr Baz, University of Maryland, USA
@ti:Data Acquisition
@au:Bob Randall and M J Tordon, University of New South Wales, Australia
@ti:Diagnostics and Condition Monitoring, Basic Concepts
@au:M Sidahmed, Universit de Compiegne, France, and Giorgio Dalpiaz, University
of Bologna, Italy
@ti:Digital Filters
@au:Tony Constantinides, Imperial College of Science, Technology and Medicine, UK
@ti:Discrete
Elements
@au:Singiresu S Rao, University of Miami, USA
@ti:Disks
@au:D J Ewins, Imperial College of Science, Technology and Medicine,
UK
@ti:Displays of Vibration Properties
@au:Mircea Rades, University Politechnica of Bucharest, Romania
@ti:Dynamic Stability
@au:A Steindl,
Vienna University of Technology, Austria, and Hans Troger, Vienna, Austria
@ti:Earthquake Excitation and Response of Buildings
@au:Farzad
Naeim, John A Martin & Associates, Inc, USA
@ti:Eigenvalue Analysis
@au:Oliver Bauchau, Georgia Institute of Technology, USA
@ti:Electrorheological
and Magnetorheological Fluids
@au:R Stanway, The University of Sheffield, UK
@ti:Electrostrictive Materials
@au:Kenji Uchino, Pennsylvania
State University, USA, and H S Tzou, University of Kentucky, USA
@ti:Environmental Testing, Implementation
@au:P S Varoto, Escola de
Engenharia de Sao Carlos, USP, Brazil
@ti:Environmental Testing, Overview
@au:David Smallwood, Sandia National Laboratories, USA
@ti:Fatigue
@au:Albert Kobayashi and M Ramula, University of Washington, USA
@ti:Feed Forward Control of Vibration
@au:Christopher R Fuller, Virginia
Polytechnic Institute & State University, USA
@ti:Finite Difference Methods
@au:Singiresu S Rao, University of Miami, USA
@ti:Finite
Element Methods
@au:Singiresu S Rao, University of Miami, USA
@ti:Fluid/Structure Interaction
@au:Sabih Hayek, Pennsylvania State University,
USA
@ti:Flutter
@au:Jan Wright, University of Manchester, UK
@ti:Flutter, Active Control
@au:Frank H Gern, Virginia Polytechnic Institute & State University, USA
@ti:Forced Response
@au:N A J Lieven, Bristol University, UK
@ti:Friction Damping
@au:Raouf Ibrahim, Wayne State
University, USA
@ti:Friction Induced Vibrations
@au:Raouf Ibrahim, Wayne State University, USA
@ti:Gear Diagnostics
@au:C James Li, Rensselaer
Polytechnic Institute, USA
@ti:Ground Transportation Systems
@au:A K W Ahmed, Concordia University, Canada
@ti:Hand-transmitted Vibration
@au:M Griffin, University of Southampton, UK
@ti:Helicopter Damping
@au:Norman M Wereley, University of Maryland at College Park, USA
@ti:Hilbert Transforms
@au:M Feldman, Technion - Israel Institute of Technology, Israel
@ti:Hybrid Control
@au:Kon-Well Wang, Pennsylvania
State University, USA
@ti:Hysteretic Damping
@au:H T Banks, North Carolina State University, USA and G A Pinter, North Carolina State
University, USA
@ti:Identification, Fourier-based Methods
@au:Simon Braun, Technion - Israel Institute of Technology, Israel
@ti:Identification,
Model Based Methods
@au:Spilios D Fassois, University of Patras, Greece
@ti:Inverse Problems
@au:Y M Ram, Louisiana State University,
USA
@ti:Krylov-Lanczos Methods
@au:Roy Craig, University of Texas, USA
@ti:Laser Based Measurements
@au:P Castellini, E P Tomasini, and
G M Revel, Universit di Ancona, Italy
@ti:Linear Algebra
@au:Charbel Farhat, University of Colorado, USA, and Daniel Rixen, Delft, Belgium
@ti:Linear Damping Matrix Methods
@au:Fai Ma, University of California, Berkeley, USA
@ti:Liquid Sloshing
@au:Raouf Ibrahim, Wayne State
University, USA
@ti:Localization
@au:Christophe Pierre, University of Michigan, USA
@ti:Magnetostrictive Materials
@au:Alison Flatau,
National Science Foundation, USA
@ti:Membranes
@au:Arthur W Leissa, Ohio State University, USA
@ti:MEMs Applications
@au:I Stiharu, Concordia
University, Canada
@ti:MEMs, Dynamic Response
@au:I Stiharu
@ti:MEMs, General Properties
@au:I Stiharu
@ti:Modal Analysis, Experimental:
Basic Principles
@au:D J Ewins, Imperial College of Science, Technology and Medicine, UK
@ti:Modal Analysis, Experimental: Measurement
Techniques
@au:J M Silva, Institute Superior Technico, Portugal
@ti:Modal Analysis, Experimental: Parameter Extraction Methods
@au:N
M Maia, Institute Superior Technico, Portugal
@ti:Modal Analysis, Experimental: Construction of Models from Tests
@au:N M Maia, Institute
Superior Technico, Portugal
@ti:Modal Analysis, Experimental: Applications
@au:D J Ewins, Imperial College of Science, Technology and
Medicine, UK
@ti:Mode of Vibration
@au:D J Ewins, Imperial College of Science, Technology and Medicine, UK
@ti:Model Updating and Validating
@au:M Link, Universit t Gesamthoschule Kassel, Germany
@ti:Motion Sickness
@au:M Griffin, University of Southampton, UK
@ti:Neural Networks,
Diagnostic Applications
@au:M Zacksenhouse, Technion - Israel Institute of Technology, Israel
@ti:Neural Networks, General Principles
@au:B Dubuisson, La Croix Saint Ouen, France
@ti:Noise, Noise Radiated from Elementary Sources
@au:Michael Peter Norton and J Pan, University
of Western Australia, Australia
@ti:Noise, Noise Radiated by Baffled Plates
@au:Michael Peter Norton and J pan, University of Western
Australia, Australia
@ti:Nondestructive Testing, Sonic
@au:Scott Doebling and Charles Farrar, Los Alamos National Laboratory, USA
@ti:Nondestructive
Testing, Ultrasonic
@au:L W Schmerr Jr, Iowa State University, USA
@ti:Nonlinear Normal Modes
@ti:Alexander Vakakis, University of Illinois,
USA
@ti:Nonlinear System Identification
@au:B F Feeny, Michigan State University, USA
@ti:Nonlinear System Resonance Phenomena
@au: Anil
Bajaj and Charles M Krousgrill, Purdue University, USA
@ti:Nonlinear Systems Analysis
@au:Anil Bajaj, Purdue University, USA
@ti:Nonlinear
Systems, Overview
@au:Noel C Perkins, University of Michigan, USA
@ti:Object Oriented Programming in FE Analysis
@au:Igor Klapka, Universit
de Li ge, Belgium, Alberto Cardona, INTEC, Argentina, and Philipee Devloo, Universidade Estadual de Campinas, Brazil
@ti:Optimal Filters
@au:Stephen J Elliott, University of Southampton, UK
@ti:Packaging
@au:Jorge Marcondes, San Jose University, USA
@ti:Parallel Processing
@au:Daniel Rixen, Delft, Belgium
@ti:Parametric Excitation
@au:Alexandra David and Subhash Sinha, Auburn University, USA
@ti:Perturbation
Techniques for Non-linear Systems
@au:Steve Shaw, Michigan State University, USA
@ti:Piezoelectric Materials
@au: H S Tzou, University
of Kentucky, USA, and M C Natori, Institute of Space & Astronautical Science, Japan
@ti:Pipes
@au:Singiresu S Rao, University of Miami,
USA
@ti:Plates
@au:Arthur W Leissa, Ohio State University, USA
@ti:Random Processes
@au:Mikhail F Dimentberg, Worcester Polytechnic Institute,
USA
@ti:Random Vibration, Basic Theory
@au:Mikhail F Dimentberg, Worcester Polytechnic Institute, USA
@ti:Resonance and Antiresonance
@au:Mircea Rades, University Politechnica of Bucharest, Romania
@ti:Robot Vibrations
@au:Wayne Book, Georgia Institute of Technology,
USA
@ti:Rotating Machinery, Essential Features
@au:R Bigret, Drancy, France
@ti:Rotating Machinery, Model Characteristics
@au:R Bigret,
Drancy, France
@ti:Rotating Machinery, Monitoring
@au:R Bigret, Drancy, France
@ti:Rotor Dynamics
@au:R Bigret, Drancy, France
@ti:Rotorstator
Interactions
@au:R Bigret, Drancy, France
@ti:Seismic Instruments, Environmental Factors
@au:Kenneth McConnell, Iowa State University,
USA
@ti:Sensors and Actuators
@au:H S Tzou, University of Kentucky, USA, and C S Chou, National Taiwan University, Republic of China
@ti:Shape Memory Alloys
@au:M Baz, University of Maryland, USA
@ti:Shells
@au:W Soedel, Purdue University, USA
@ti:Ship Vibrations
@au:William
S Vorus, University of New Orleans, USA
@ti:Shock
@au:Jorge Marcondes, San Jose University, USA
@ti:Shock Isoloation Systems
@au:Mircea
Rades, University Politechnia of Bucharest, Romania
@ti:Signal Generation Models for Diagnostics
@au:Giorgio Dalpiaz, University of Bologna,
Italy, and M Sidahmed, Universit de Compiegne, France
@ti:Signal Integration and Differentiation
@au:Stuart Dyne, University of Southampton,
UK
@ti:Signal Processing, Model Based Methods
@au:Simon Braun, Technion - Israel Institute of Technology, Israel
@ti:Spectral Analysis,
Classical Methods
@au:Simon Braun, Technion - Israel Institute of Technology, Israel
@ti:Standards for Vibrations of Machines and Measurement
Procedures
@au:John Niemkiewicz, Maintenance and Diagnostic (M&D) LLC, USA
@ti:Stochastic Analysis of Nonlinear Systems
@au:Y K Lin and
C Q Cai, Florida Atlantic University, USA
@ti:Stochastic Systems
@au:Mikhail F Dimentberg, Worcester Polytechnic Institute, USA
@ti:Structural
Dynamic Modifications
@au:A Sestieri, Universita Degli Studi di Roma, Italy, and W D'Amorogio, Universita Be L'Aquila, Italy
@ti:Structure-Acoustic
Interaction, High Frequencies
@au:A Sestieri, Universita Degli Studi di Roma, Italy
@ti:Structure-Acoustic Interaction, Low Frequencies
@au:A Sestieri, Universita Degli Studi di Roma, Italy
@ti:Testing, Non-linear Systems
@au:Alan Haddow, Michigan State University, USA
@ti:Theory of Vibration, Fundamentals
@au:Bingen Yang, University of Southern California, USA
@ti:Theory of Vibration, Superposition
@au:M G Prasad, Stevens Institute of Technology, USA
@ti:Theory of Vibration, Duhamel's Principle and Convolution
@au:G Rosenhouse, Technion
- Israel Institute of Technology, Israel
@ti:Theory of Vibration, Energy Methods
@au:Singiresu S Rao, University of Miami, USA
@ti:Theory
of Vibration, Equations of Motion
@au:Jonathan Wickert, Carnegie Mellon University, USA
@ti:Theory of Vibration, Substructuring
@au:Mehmet
Sunar, King Fahd University of Petroleum and Minerals, Saudi Arabia
@ti:Theory of Vibration, Impulse Response Function
@au:Rakesh Kapania,
Virginia Polytechnic Institute & State University, USA
@ti:Theory of Vibration, Variational Methods
@au:Singiresu S Rao, University of
Miami, USA
@ti:Time-Frequency Methods
@au:Paul White, University of Southampton, UK
@ti:Tire Vibrations
@au:G D Shteinhauz, The Goodyear
Tire & Rubber Company, USA
@ti:Tool Wear Monitoring
@au:M Sidahmed, Universit de Compiegne, France
@ti:Transducers for Absolute Motion
@au:Kenneth McConnell, Iowa State University, USA
@ti:Transducers for Relative Motion
@au:Kenneth McConnell, Iowa State University, USA,
Simon Braun, Technion - Israel Institute of Technology, Israel, and Gene E Maddux, Tipp City, USA
@ti:Transform Methods
@au:Simon Braun,
Technion - Israel Institute of Technology, Israel
@ti:Transforms, Wavelets
@au:Paul White, University of Southampton, UK
@ti:Ultrasonics
@au:M J S Lowe, Imperial College of Science, Technology and Medicine, UK
@ti:Vibration Generated Sound, Fundamentals
@au:Michael Peter
Norton and S J Drew, University of Western Australia, Australia
@ti:Vibration Generated Sound, Radiation by Flexural Elements
@au:Michael
Peter Norton and S J Drew, University of Western Australia, Australia
@ti:Vibration Intensity
@au:Sabih Hayek, Pennsylvania State University,
USA
@ti:Vibration Isolation, Applications and Criteria
@au:E Rivin, Wayne State University, USA
@ti:Vibration Isolation Theory
@au:E Rivin, Wayne State University, USA
@ti:Vibration Transmission
@au:Sabih I Hayek, Pennsylvania State University, USA
@ti:Vibro-impact
Systems
@au:F Peterka, Academy of Sciences of the Czech Republic, Czech Republic
@ti:Viscous Damping
@au:Farhan Gandhi, Pennsylvania
State University, USA
@ti:Wave Propagation, Waves in an Unbound Medium
@au:M J S Lowe, Imperial College of Science, Technology and Medicine,
UK
@ti:Wave Propagation, Interaction of Waves with Boundaries
@au:M J S Lowe, Imperial College of Science, Technology and Medicine, UK
@ti:Wave Propagation, Guided Waves in Structures
@au:M J S Lowe, Imperial College of Science, Technology and Medicine, UK
@ti:Whole-body
Vibration
@au:M Griffin, University of Southampton, UK
@ti:Wind-Induced Vibrations
@au:Ahsan Kareem, University of Notre Dame, USA
@ti:Windows
@au:Simon Braun, Technion - Israel Institute of Technology, Israel
| Bibliographic details |
Hardbound, 1645 pages, publication date: SEP-2001
ISBN-13: 978-0-12-227085-7
ISBN-10: 0-12-227085-1
Imprint: ACADEMIC PRESS
|
| Price and Ordering |
Price:
USD 1,360
GBP 823
EUR 1,085
|  |
Books and book related electronic products are priced in US dollars (USD), euro (EUR), and Great Britain Pounds (GBP). USD prices apply to the Americas and Asia Pacific. EUR prices apply in Europe and the Middle East. GBP prices apply to the UK and all other countries.
|
See also information about conditions of sale & ordering procedures, and links to our regional sales offices.
|
034/312
Last update: 30 Nov 2009
|
|
| |
| | |
|
|
| Full text online | |
|
| If you have a subscription to this title on ScienceDirect, you can access all chapters of this publication online. | |
|
|
|
| |
|
|
| |
Home | Elsevier Sites | Privacy Policy | Terms and Conditions | Feedback | Site Map | A Reed Elsevier Company