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This text highlights the solutions to the common failures and reliability of equipment in major industries, through an integrated reliability condition monitoring, and maintenance with a technological inheritance model-based program. It relates all operating conditions of a critical cylindrical equipment part (shaft) throughout its life cycle, starting from design through manufacturing to actual equipment service application. The mathematical relationship of a desired operating manufacturing process and work-piece conditions is developed as a system multivariate quality model that relates with its part failure mechanism.…mehr
This text highlights the solutions to the common failures and reliability of equipment in major industries, through an integrated reliability condition monitoring, and maintenance with a technological inheritance model-based program. It relates all operating conditions of a critical cylindrical equipment part (shaft) throughout its life cycle, starting from design through manufacturing to actual equipment service application. The mathematical relationship of a desired operating manufacturing process and work-piece conditions is developed as a system multivariate quality model that relates with its part failure mechanism.
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Autorenporträt
John Osarenren, received his PHd in agricultural engineering in 1989 from the Byelorussian University of Agricultural Mechanization, in Minsk, USSR, and his M.SC. (Agricultural Engineering) in 1986. He is currently a member of the Integrated Agricultural and Industrial Consultancy, New York, USA. He is a member of the American society Of Agricultural Engineers, Michigan, USA, and the Society of Reliability Maintenance Professionals, Georgia, USA.
Inhaltsangabe
Overview for Condition Monitoring and Maintenance of Equipment in the Industries of the Future. Integrated Reliability of Material-Part-Equipment System Life Cycle with the Technological Inheritance Technique. Reliability Growth and Degradation of System Condition Monitoring with the Technological Inheritance Technique. Role of Technological Inheritance Technique for Condition Monitoring and Maintenance of Industrial Equipment. Maximum Achievable Reliability Design for Critical Parts of Equipment with Technological Inheritance Model. Selection of Coating Materials, Parts, and Equipment System with the Technological Inheritance Technique. Reliability Growth Condition of Coating Material and Deposition Process with a Technological Inheritance Model-Based Program. Reliability Growth Condition of Machining and Grinding Processes of Hard-Coated Workpiece Surface. Reliability Growth, Degradation, and Fatigue Failure of Nickel-Based Hard Alloy-Coated Part Surface. Reliability Degradation, Wear, and Competing Failure Modes of Nickel-Based Hard Alloy-Coated Part Mating Surface. Integration of Reliability, Condition Monitoring, and Maintenance of Industrial Equipment. Integrated Reliability of Equipment with a Technological Inheritance Model-Based Simulation Technique. Integrated Reliability with a Technological Inheritance Model-Based Program in the Industries of the Future. Integrated Reliability with a Technological Inheritance Model-Based Network Program in the Industries of the Future. Integrated Reliability Management with a Technological Inheritance Model-Based Program in the Industries of the Future.
Overview for Condition Monitoring and Maintenance of Equipment in the Industries of the Future. Integrated Reliability of Material-Part-Equipment System Life Cycle with the Technological Inheritance Technique. Reliability Growth and Degradation of System Condition Monitoring with the Technological Inheritance Technique. Role of Technological Inheritance Technique for Condition Monitoring and Maintenance of Industrial Equipment. Maximum Achievable Reliability Design for Critical Parts of Equipment with Technological Inheritance Model. Selection of Coating Materials, Parts, and Equipment System with the Technological Inheritance Technique. Reliability Growth Condition of Coating Material and Deposition Process with a Technological Inheritance Model-Based Program. Reliability Growth Condition of Machining and Grinding Processes of Hard-Coated Workpiece Surface. Reliability Growth, Degradation, and Fatigue Failure of Nickel-Based Hard Alloy-Coated Part Surface. Reliability Degradation, Wear, and Competing Failure Modes of Nickel-Based Hard Alloy-Coated Part Mating Surface. Integration of Reliability, Condition Monitoring, and Maintenance of Industrial Equipment. Integrated Reliability of Equipment with a Technological Inheritance Model-Based Simulation Technique. Integrated Reliability with a Technological Inheritance Model-Based Program in the Industries of the Future. Integrated Reliability with a Technological Inheritance Model-Based Network Program in the Industries of the Future. Integrated Reliability Management with a Technological Inheritance Model-Based Program in the Industries of the Future.
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