Vibratory Condition Monitoring of Machines
Published on 14. September 2000
Book
Hardback
442 pages
978-0-8493-0937-3 (ISBN)
Description
Vibratory Condition Monitoring of Machines discusses the basic principles applicable in understanding the vibratory phenomena of rotating and reciprocating machines. It also addresses the defects that influence vibratory phenomenon, instruments and analysis procedures for maintenance, vibration related standards, and the expert systems that help ensure good maintenance programs. The author offers a minimal treatment of the mathematical aspects of the subject, focusing instead on imparting a physical understanding to help practicing engineers develop maintenance programs and operate machines efficiently.
More details
Language
English
Place of publication
Bosa Roca
United States
Publishing group
Taylor & Francis Inc
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 229 mm
Width: 152 mm
Weight
1061 gr
ISBN-13
978-0-8493-0937-3 (9780849309373)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
Content
INTRODUCTION
UNDERSTANDING SIMPLE VIBRATORY PHENOMENA
Single Degree of Freedom Vibrating Systems
Damped Vibrations
Forced Vibration
System Identification
MULTI DEGREE OF FREEDOM SYSTEMS
Close Coupled Systems
Far Coupled Systems
General Free Vibration Analysis-Modal Approach
Damped Modal Analysis
Transient Vibrations
Forced Vibrations
Continuous Systems
Plates
Application of Commercial Computer Codes
UNDERSTANDING NONLINEARITIES AND INSTABILITIES
Stiffness Non Linearity
Damping Non Linearity
Variable Inertia
Variable Stiffness
Forced Vibration of Nonlinear Systems
Flow Induced Vibrations
Summary of Nonlinear and Variable Coefficient System Characteristics
ROTOR UNBALANCE
Static Balancing
Dynamic Balancing
Unbalance Response
Translatory and Conical Whirls
Rotor Bow
Gyroscopics
SUPPORTS
Rolling Element Bearings
Hydrodynamic Bearings
Jeffcott Rotor on Flexible Bearings
Seals
Fluid Film Instabilities
Steam Whirl Instability
Examples of Instability
Squeeze Film Bearing
OTHER ROTOR PHENOMENA
Other Rotor Phenomena
Misalignment
Seal Rub
Brake Squeal
Transverse Cracks
Geared Systems
VIBRATION MEASUREMENT
Vibration Pick-Up
Spectrum Analyzers
Fourier Analysis
Amplitude and Frequency Modulation
Torsional Vibration Measurement
Application of Modulated Signals
Digital Measurements
Multiplexing and Demultiplexing
UNDERSTANDING SIMPLE VIBRATORY PHENOMENA
Single Degree of Freedom Vibrating Systems
Damped Vibrations
Forced Vibration
System Identification
MULTI DEGREE OF FREEDOM SYSTEMS
Close Coupled Systems
Far Coupled Systems
General Free Vibration Analysis-Modal Approach
Damped Modal Analysis
Transient Vibrations
Forced Vibrations
Continuous Systems
Plates
Application of Commercial Computer Codes
UNDERSTANDING NONLINEARITIES AND INSTABILITIES
Stiffness Non Linearity
Damping Non Linearity
Variable Inertia
Variable Stiffness
Forced Vibration of Nonlinear Systems
Flow Induced Vibrations
Summary of Nonlinear and Variable Coefficient System Characteristics
ROTOR UNBALANCE
Static Balancing
Dynamic Balancing
Unbalance Response
Translatory and Conical Whirls
Rotor Bow
Gyroscopics
SUPPORTS
Rolling Element Bearings
Hydrodynamic Bearings
Jeffcott Rotor on Flexible Bearings
Seals
Fluid Film Instabilities
Steam Whirl Instability
Examples of Instability
Squeeze Film Bearing
OTHER ROTOR PHENOMENA
Other Rotor Phenomena
Misalignment
Seal Rub
Brake Squeal
Transverse Cracks
Geared Systems
VIBRATION MEASUREMENT
Vibration Pick-Up
Spectrum Analyzers
Fourier Analysis
Amplitude and Frequency Modulation
Torsional Vibration Measurement
Application of Modulated Signals
Digital Measurements
Multiplexing and Demultiplexing