Maintenance excellence : optimizing equipment life-cycle decisions

Considering maintenance from a proactive, rather than reactive, perspective, Maintenance Excellence details the strategies, tools, and solutions for maximizing the productivity of physical assets-focusing on profitability potential. The editors address contemporary concerns, key terms, data requirements, critical methodologies, and essential mathematical needs. They present maintenance in a business context, review planning, measurement, feedback, and techniques related to cost, efficiency, and results, and summarize applications of tools and software from statistics and neural networks to cost-optimized models.

• Part 1 Maintenance management fundamentals: maintenance management methodologies
• measurement in maintenance management
• data acquisition
• materials management optimization. Part 2 Managing equipment reliability: assessing and managing risk
• reliability by design - reliability centred maintenance
• reliability by operator - total productive maintenance. Part 3 Optimizing maintenance decisions: reliability management and maintenance optimization - basic statistics and economics
• maintenanceoptimization models
• optimizing maintenance and replacement decisions
• optimizing condition based maintenance. Part 4 Conclusion: achieving maintenance excellence
• appendix 1 -mean time to failure
• appendix 2 - median ranks
• appendix 3 -censored data
• appendix 4 - the 3-parameter Weibull function
• appendix 5 - confidence intervals
• appendix 6 - estimating (also called fitting) the distribution
• appendix 7 - Kolmogorov-Smirnov goodness-of-fit test
• appendix 8 - present value
• appendix 9 -cost of capitalrequired for economic-life decisions
• appendix 10 - optimal number of workshop machines to meet a fluctuating workload
• appendix 11 - optimal size of a maintenance workforce to meet a fluctuating workload, taking into account subcontracting opportunities
• appendix 12 - fuzzy logic
• appendix 13 - neural nets
• appendix 14 - optimal interval between preventive replacements of equipment subject to breakdown
• appendix 15 -optimal preventive replacement age of equipment subject to breakdown
• appendix 16 -optimal preventive replacement age of equipment subject to breakdown, taking into account the times required to effect failure and preventive replacements
• appendix 17 - optimal replacement interval for capital equipment -minimization of total cost
• appendix 18 - optimal replacement age of an asset taking into account tax considerations
• appendix 19 -optimal replacement policy for capital equipment taking into account technological improvement - finite planning horizon
• appendix 20 - optimalreplacement policy for capital equipmnent taking into account technological improvement - infinite planning horizon
• appendix 21 - optimal inspection frequency - minimization of downtime.