Practical Machinery Vibration Analysis and Predictive MaintenanceElsevier, 2004 M07 16 - 272 pages Machinery Vibration Analysis and Predictive Maintenance provides a detailed examination of the detection, location and diagnosis of faults in rotating and reciprocating machinery using vibration analysis. The basics and underlying physics of vibration signals are first examined. The acquisition and processing of signals is then reviewed followed by a discussion of machinery fault diagnosis using vibration analysis. Hereafter the important issue of rectifying faults that have been identified using vibration analysis is covered. The book also covers the other techniques of predictive maintenance such as oil and particle analysis, ultrasound and infrared thermography. The latest approaches and equipment used together with the latest techniques in vibration analysis emerging from current research are also highlighted.
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Contents
| 1 | |
| 11 | |
Data acquisition | 29 |
Signal processing applications and representations | 55 |
Machinery fault diagnosis using vibration analysis | 89 |
Correcting faults that cause vibration | 134 |
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Practical Machinery Vibration Analysis and Predictive Maintenance Paresh Girdhar No preview available - 2004 |
Common terms and phrases
acceleration accelerometer additives alignment analyzer angle angular applications axial belt Bode plot calculated cause Cavitation cepstrum components condition contamination critical speed detect determine dial gage displacement dynamic absorber eccentricity Eddy current electrical equipment F-max ferrography filter fluid gear gearbox harmonics high-frequency indicate kcpm leak lubricant machinery magnetic mass measured method microns mils misalignment monitoring motor mounting natural frequency normal occur oil analysis oil sample operating orbit oxidation peak phase difference phase readings photocell plane plot pointer position possible predictive maintenance predictive maintenance techniques probe problems pump radial range resonance rotating rotor running speed sensor shaft shims sidebands signal Spectroscopy spring-mass system stator Steve Mackay stiffness stroboscope Synchronous time averaging temperature thermography transducer trial weight ultrasound unbalance valve vector velocity pickup vibration amplitude vibration analysis vibration levels viscosity voltage wave waveform wear particles
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Page 19 - Figure 11.lb, the total distance travelled by the vibration part from one extreme limit of travel to the other extreme limit of travel is referred to as the ‘peak-to-peak
Page 21 - See vibration acceleration. acceleration of gravity: The acceleration produced by the force of gravity at the surface of the earth. It varies with the latitude and elevation of the point of observation.