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Consider a Viable and Cost-Effective Platform for the Industries of the Future (IOF)
Benefit from improved safety, performance, and product deliveries to your customers. Achieve a higher rate of equipment availability, performance, product quality, and reliability. Integrated Reliability: Condition Monitoring and Maintenance of Equipmentincorporates reliable engineering and mathematical modeling tohelp you move toward sustainable development in reliability condition monitoring and maintenance. This text introduces a cost-effective integrated reliability growth monitor, integrated reliability degradation monitor, technological inheritance coefficient sensors, and a maintenance tool that supplies real-time information for predicting and preventing potential failures of manufacturing processes and equipment.
The author highlights five key elements that are essential to any improvement program: improving overall equipment and part effectiveness, quality, and reliability; improving process performance with maintenance efficiency and effectiveness; training all employees involved; including operators in the daily maintenance and upkeep of the equipment; and implementing early equipment management and maintenance prevention design. He offers a sustainable solution with integrated reliability condition monitoring and maintenance of manufacturing processes, parts, and equipment in the IOFs with a technological inheritance model-based program.
This book contains 15 chapters that include details on:
Integrated Reliability: Condition Monitoring and Maintenance of Equipment addresses potential failures from an asset manager, maintenance user, and operator’s standpoint, and highlights the solutions to common failures and reliability problems for equipment in the IOFs.
Preface
Acknowledgments
Introduction
Summary of Chapters
Chapter 1 : Overview for Condition Monitoring and Maintenance of Equipment in the Industries of the Future
Chapter 2 : Integrated Reliability of Material-Part-Equipment System Life Cycle with the Technological Inheritance Technique
Chapter 3 : Reliability Growth and Degradation of System Condition Monitoring with the Technological Inheritance Technique
Chapter 4 : Role of Technological Inheritance Technique for Condition Monitoring and Maintenance of Industrial Equipment
Chapter 5 : Maximum Achievable Reliability Design for Critical Parts of Equipment with Technological Inheritance Model
Chapter 6 : Selection of Coating Materials, Parts, and Equipment System with the Technological Inheritance Technique
Chapter 7 : Reliability Growth Condition of Coating Material and Deposition Process with a Technological Inheritance Model-Based Program
Chapter 8 : Reliability Growth Condition of Machining and Grinding Processes of Hard-Coated Workpiece Surface
Chapter 9 : Reliability Growth, Degradation, and Fatigue Failure of Nickel-Based Hard Alloy-Coated Part Surface
Chapter 10 : Reliability Degradation, Wear, and Competing Failure Modes of Nickel-Based Hard Alloy-Coated Part Mating Surface
Chapter 11 : Integration of Reliability, Condition Monitoring, and Maintenance of Industrial Equipment
Chapter 12 : Integrated Reliability of Equipment with a Technological Inheritance Model-Based Simulation Technique
Chapter 13 : Integrated Reliability with a Technological Inheritance Model-Based Program in the Industries of the Future
Chapter 14 : Integrated Reliability with a Technological Inheritance Model-Based Network Program in the Industries of the Future
Chapter 15 : Integrated Reliability Management with a Technological Inheritance Model-Based Program in the Industries of the Future
Index