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An Introduction to Predictive Maintenance 2E
This second edition of An Introduction to Predictive Maintenance helps plant, process, maintenance and reliability managers and engineers to develop and implement a comprehensive maintenance management program, providing proven strategies for regularly monitoring critical process equipment and systems, predicting machine failures, and scheduling maintenance accordingly.
Since the publication of the first edition in 1990, there have been many changes in both technology and methodology, including financial implications, the role of a maintenance organization, predictive maintenance techniques, various analyses, and maintenance of the program itself. This revision includes a complete update of the applicable chapters from the first edition as well as six additional chapters outlining the most recent information available.
Having already been implemented and maintained successfully in hundreds of manufacturing and process plants worldwide, the practices detailed in this second edition of An Introduction to Predictive Maintenance will save plants and corporations, as well as U.S. industry as a whole, billions of dollars by minimizing unexpected equipment failures and its resultant high maintenance cost while increasing productivity.
Impact of Maintenance; Maintenance Management Methods; Optimizing Predictive Maintenance; Financial Implications and Cost Justification; Assessing the Need for Condition Monitoring; Cost Justification; Justifying Predictive Maintenance; Economics of Preventive Maintenance; Role of Maintenance Organization; Maintenance mission; Evaluation of the Maintenance Organization; Designing a Predictive Maintenance Program; Benefits of Predictive Maintenance; Primary Uses of Predictive Maintenance; Machine-Train Monitoring Parameters; Drivers; Intermediate Drives; Driven Components; Predictive Maintenance Techniques; Vibration Monitoring; Thermography; Tribology; Visual Inspections; Ultrasonics; Other Techniques; Vibration Monitoring and Analysis; Vibration Analysis Applications; Predictive Maintenance; Acceptance testing; Quality control; Loose or foreign parts detection; Noise control; Leak detections; Vibration Analysis Overview; Vibration Sources; Vibration Theory; Machine Dynamics; Vibration Data Types and Formats; Data Acquisition; Vibration Analyses Techniques; Thermography; Infrared Basics; Types of Infrared Instruments; Training; Basic Infrared Theory; Infrared Equipment; Infrared Thermography Safety; Infrared Scanning Procedures; Type of Infrared Problems; Glossary of Terms and Symbols; Tribology; Lubricating Oil Analysis; Setting up an Effective Program; Process Parameters; Process Parameters of Machinery; Fans, Blowers, and Fluidizers; Conveyors; Compressors; Mixers and Agitators; Dust Collectors; Process Rolls; Gearboxes/Reducers; Steam Traps; Inverters; Control Valves; Seals and Packing; Other Methods; Ultrasonics; Visual Inspection; Operating Dynamics Analysis; Its Not Predictive Maintenance; Failure-Mode Analysis; Common General Failure Modes; Failure Modes by Machine-Train Component; Establishing a Predictive Maintenance Program; Goals, Objectives and Benefits; Functional Requirements; Selling Predictive Maintenance Programs; Selecting a Predictive Maintenance System; Database Development; Getting Started; A Total Plant Predictive Maintenance Program; The Optimum Predictive Maintenance Program; Predictive is Not Enough; Maintaining the Program; World-class Maintenance; What Is World-class Maintenance?; Five Fundamentals of World-class Performance; Competitive Advantage; Focus on Quality; Focus on Maintenance; Overall Equipment Effectiveness (OEE); Elements of Effective Maintenance; Responsibilities; Three Types of Maintenance; Supervision; Standard Procedures; Workforce Development