Affordable Reliability Engineering Life-Cycle Cost Analysis for Sustainability & Logistical Support
Auteurs : Wessels William R., Sillivant Daniel
How Can Reliability Analysis Impact Your Company?s Bottom Line?
While reliability investigations can be expensive, they can also add value to a product that far exceeds its cost. Affordable Reliability Engineering: Life-Cycle Cost Analysis for Sustainability & Logistical Support shows readers how to achieve the best cost for design development testing and evaluation and compare options for minimizing costs while keeping reliability above specifications. The text is based on the premise that all system sustainment costs result from part failure. It examines part failure in the design and sustainment of fielded parts and outlines a design criticality analysis procedure that reflects system design and sustainment.
Achieve the Best Cost for Life-Cycle Sustainment
Providing a framework for managers and engineers to develop and implement a reliability program for their organizations, the authors present the practicing professional with the tools needed to manage a system at a high reliability at the best cost. They introduce analytical methods that provide the methodology for integrating part reliability, failure, maintainability, and logistic math models. In addition, they include examples on how to run reliability simulations, highlight tools that are commercially available for such analysis, and explain the process required to ensure a design will meet specifications and minimize costs in the process.
This text:
- Demonstrates how to use information gathered from reliability investigations
- Provides engineers and managers with an understanding of a reliability engineering program so that they can perform reliability analyses
- Seeks to resolve uncertainty and establish the value of reliability engineering
Affordable Reliability Engineering: Life-Cycle Cost Analysis for Sustainability & Logistical Support focuses on reliability-centered maintenance and is an ideal resource for reliability engineers and managers. This text enables reliability professionals to determine the lowest life-cycle costs for part selection, design configuration options, and the implementation of maintenance practices, as well as spare parts strategies, and logistical resources.
Scope of Reliability-Based Life-Cycle Economical Analysis. Reliability Analysis for Part Design. Reliability Analysis for System Sustainment. Engineering Economic Analysis. Reliability-Based Logistical Economic Analysis. Life-Cycle Economic Analysis. Reliability-Centered Maintenance. Reliability Database. Reliability Simulation and Analysis. A: Reliability Failure Math Models and Reliability Functions. B: Maintainability Math Models and Maintainability Functions. Logistics Downtime Functions. Engineering Economics Functions. References.
Bill Wessels Daniel S. Sillivant
Date de parution : 07-2017
15.6x23.4 cm
Date de parution : 04-2015
15.6x23.4 cm
Thèmes d’Affordable Reliability Engineering :
Mots-clés :
Logistical Downtime; Failure Math Model; Baseline Reliability Analysis; Math Model; Capital Recovery; Reliability Simulation; Cash Flow Timeline; Operational Availability; Criticality Analysis Procedure; Spare Parts Strategy; Exponential Reliability Math Modeling Approach; CIL; Exponential Reliability Math Models; Mission Reliability; Labor Skills Categories; Failure Report; Analysis; Corrective Action System—FRACAS; Median Ranks Regression; Life-Cycle Economic Analysis; Reliability Math Models; Life-Cycle Simulation Approach; Life Cycle Economic Analysis; Log-Normal Distribution Approach; RCM; Logistics Downtime Math Model; Compounding Period; Qualitative Maintainability Analysis; Engineering Economic Analyses; Qualitative Part Failure Analysis; Cumulative Failure Distribution; Quantitative Failure Analysis; Survival Function; Quantitative Maintainability Analysis; Part Failure; RCM Benefits; Future Amount; RCM Challenges; Part Delta; Reliability Block Diagram; Specialty Tools; Reliability Data; Part Baker; Reliability Database; Net Present; Reliability-Centered Maintenance; Maintenance Solution; Repair Math Model; Sinking Fund; Standby Design Configuration; System Logistics Downtime Math Model; System Reliability Analysis; Weibull Distribution Approach; Weibull Reliability Math Modeling Approach; Weibull Reliability Math Models