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1.

図書

図書
Patrick D.T. O'Connor with David Newton, Richard Bromley
出版情報: Chichester, England : Wiley, c2002  xxvi, 513 p. ; 26 cm
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目次情報: 続きを見る
Preface to the First Edition
Preface to the Second Edition
Preface to the Third Edition
Preface to Third Edition Revised
Preface to Fourth Edition
Acknowledgements
Notation and Definitions
Introduction to Reliability Engineering / 1:
What is Reliability Engineering?
Why Teach Reliability Engineering?
Why do Engineering Items Fail?
Probabilistic Reliability
Repairable and Non-repairable Items
The Pattern of Failures with Time (Non-repairable Items)
The Pattern of Failures with Time (Repairable Items)
The Development of Reliability Engineering
Courses, Conferences and Literature
Organizations Involved in Reliability Work
Reliability as an Effectiveness Parameter
Reliability Programme Activities
Reliability Economics and Management
Bibliography
Questions
Reliability Mathematics / 2:
Introduction
Variation
Probability Concepts
Rules of Probability
Continuous Variation
Continuous Distribution Functions
Summary of Continuous Statistical Distributions
Variation in Engineering
Discrete variation
Statistical Confidence
Statistical Hypothesis Testing
Non-parametric Inferential Methods
Goodness of Fit
Series of Events (Point Processes)
Computer Software for Statistics
Practical Conclusions
Probability Plotting / 3:
Ranking of Data
Probability Plotting Techniques
Lognormal Probability Plots
Weibull Probability Plots
Extreme Value Probability Plotting
Hazard Plotting
Choosing the Distribution and Assessing the Results
Probability Plotting for Binomial Data
Conclusions
Load-strength Interference / 4:
Distributed Load and Strength
Analysis of Load-strength Interference
Effect of Safety Margin and Loading Roughness on Reliability (Multiple Load Applications)
Practical Aspects
Statistical Experiments / 5:
Statistical Design of Experiments and Analysis of Variance
Non-parametric Methods
Randomizing the Data
Engineering Interpretation of Results
The Taguchi Method
Evolutionary Operation
Reliability Prediction and Modelling / 6:
Fundamental Limitations of Reliability Prediction
Reliability Databases
The Practical Approach
Systems Reliability Models
Availability of Repairable Systems
Modular Design
Block Diagram Analysis
Fault Tree Analysis (FTA)
Petri Nets
State-space Analysis (Markov Analysis)
Monte Carlo Simulation
Reliability Apportionment
Standard Methods for Reliability Prediction and Modelling
Reliability in Design / 7:
Computer-aided Engineering
Environments
Design Analysis Methods
Quality Function Deployment (QFD)
Load-strength Analysis (LSA)
Failure Modes, Effects and Criticality Analysis (FMECA)
Reliability Predictions for FMECA
Hazard and Operability Study (HAZOPS)
Parts, Materials and Processes (PMP) Review
Non-material Failure Modes
Human Reliability
Design Analysis for Processes
Critical Items List
Summary
Management of Design Review
Configuration Control
Reliability of Mechanical Components and Systems / 8:
Mechanical Stress, Strength and Fracture
Fatigue
Creep
Wear
Corrosion
Vibration and Shock
Temperature Effects
Materials
Components
Processes
Electronic Systems Reliability / 9:
Reliability of Electronic Components
Component Types and Failure Mechanisms
Summary of Device Failure Modes
Circuit and System Aspects
Electronic System Reliability Prediction
Reliability in Electronic System Design
Parameter Variation and Tolerances
Design for Production, Test and Maintenance
Bibliographry
Software Reliability / 10:
Software in Engineering Systems
Software Errors
Preventing Errors
Software Structure and Modularity
Programming Style
Fault Tolerance
Redundancy/Diversity
Languages
Data Reliability
Software Checking
Software Design Analysis Methods
Software Testing
Error Reporting
Software Reliability Prediction and Measurement
Hardware/Software Interfaces
Reliability Testing / 11:
Planning Reliability Testing
Test Environments
Testing for Reliability and Durability: Accelerated Test
Failure Reporting, Analysis and Corrective Action Systems (FRACAS)
Analysing Reliability Data / 12:
Pareto Analysis
Accelerated Test Data Analysis
Reliability Analysis of Repairable Systems
CUSUM Charts
Exploratory Data Analysis and Proportional Hazards Modelling
Reliability Demonstration
Combining Results Using Bayesian Statistics
Reliability Growth Monitoring
Making Reliability Grow
Reliability in Manufacture / 13:
Control of Production Variability
Control of Human Variation
Acceptance Sampling
Improving the Process
Quality Control in Electronics Production
Stress Screening
Production Failure Reporting Analysis and Corrective Action System (FRACAS)
Maintainability, Maintenance and Availability / 14:
Maintenance Time Distributions
Preventive Maintenance Strategy
FMECA and FTA in Maintenance Planning
Maintenance Schedules
Technology Aspects
Calibration
Maintainability Prediction
Maintainability Demonstration
Design for Maintainability
Integrated Logistic Support
Reliability Management / 15:
Corporate Policy for Reliability
Integrated Reliability Programmes
Reliability and Costs
Safety and Product Liability
Standards for Reliability, Quality and Safety
Specifying Reliability
Contracting for Reliability Achievement
Managing Lower-Level Suppliers
The Reliability Manual
The Project Reliability Plan
Use of External Services
Customer Management of Reliability
Selecting and Training for Reliability
Organization for Reliability
Managing Production Quality
Quality Audit
Quality Management Approaches
Choosing the Methods: Strategy and Tactics
Conclusions: Greed, Fear and Freedom
The Standard Cumulative Normal Distribution Function / Appendix 1:
Values of y = exp (- x) / Appendix 2:
Percentiles of the X[superscript 2] Distribution / Appendix 3:
Values of the F-distribution / Appendix 4:
Kolmogorov-Smirnov Tables / Appendix 5:
Rank Tables (Median, 5%, 95%) / Appendix 6:
Matrix Algebra Revision / Appendix 7:
Failure Reporting, Analysis and Corrective Action System (FRACAS) / Appendix 8:
Reliability, Maintainability (and Safety) Plan Example / Appendix 9:
Index
Preface to the First Edition
Preface to the Second Edition
Preface to the Third Edition
2.

図書

図書
Norbert Lloyd Enrick
出版情報: New York : Industrial Press, c1977  ix, 306 p. ; 24 cm
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3.

図書

図書
Mohammad Modarres, Mark Kaminskiy, Vasiliy Krivtsov
出版情報: New York : Marcel Dekker, c1999  xv, 542 p. ; 24 cm.
シリーズ名: Quality and reliability ; 55
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Reliability analysis in perspective
basic reliability mathematics -review of probability and statistics
elements of component reliability
system reliability analysis
reliability and availability of repairable items
selected topics in reliability modelling
selected topics in reliability data analysis
risk analysis. Appendices: statistical tables
generic failure data
software for reliability and risk analyses
Reliability analysis in perspective
basic reliability mathematics -review of probability and statistics
elements of component reliability
4.

図書

図書
sponsored by the National Science Foundation ... [et al.] ; edited by Dan M. Frangopol
出版情報: Reston, VA : American Society of Civil Engineers, c1998  ix, 222 p. ; 22 cm
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5.

図書

図書
Achintya Haldar, Sankaran Mahadevan
出版情報: New York : John Wiley & Sons, c2000  xvi, 328 p. ; 26 cm
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Basic Concept of Reliability
Commonly Used Probability Distributions
Fundamentals of Reliability Analysis
Simulation Techniques
Implicit Performance Functions: Introduction to SFEM
SFEM for Linear Static Problems
SFEM for Spatial Variability Problems
SFEM-Based Reliability Evaluation of Nonlinear Two- and Three-Dimensional Structures
Structures under Dynamic Loading
Appendices
References
Index
Basic Concept of Reliability
Commonly Used Probability Distributions
Fundamentals of Reliability Analysis
6.

図書

図書
John X. Wang, Marvin L. Roush
出版情報: New York : Marcel Dekker, c2000  vii, 251 p. ; 24 cm
シリーズ名: What every engineer should know ; v. 36
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Preface
Risk Engineering - Dealing with System Complexity and Engineering Dynamics / Chapter 1.:
Understanding Failure Is Critical to Engineering Success / 1.1:
Risk Assessment - Quantification of Potential Failures / 1.2:
Risk Engineering - Converting Risk into Opportunities / 1.3:
Engineering - A Profession of Managing Technical Risk / 1.4:
References
Risk Identification - Understanding the Limits of Engineering Designs / Chapter 2.:
The Fall of Icarus - Limits of Engineering Design / 2.1:
Overload of Failures: Fracture and Its Mechanics / 2.2:
Wear-Out Failures: Crack Initiation and Growth / 2.3:
Environmental Impact: Temperature-Related Failure / 2.4:
Software and Related "Hard" Failures / 2.5:
Risk Assessment - Extending Murphy's Law / Chapter 3.:
Titanic: Connoisseurs of Engineering Failure / 3.1:
Risk Assessment: "How Likely It Is That A Thing Will Go Wrong" / 3.2:
Risk Assessment for Multiple Failure Modes / 3.3:
Fault Tree Analysis: Deductive Risk Assessment / 3.4:
Event Tree Analysis: Inductive Risk Assessment / 3.5:
A Risk Example: The TMI Accident / 3.6:
An International Risk Scale / 3.7:
Design for Risk Engineering - The Art of War Against Failures / Chapter 4.:
Challenger: Challenging Engineering Design / 4.1:
Goal Tree: Understand "What" and "How" / 4.2:
FMEA: Failure Mode and Effect Analysis / 4.3:
Redundancy and Fault Tolerance / 4.4:
Risk Acceptability - Uncertainty in Perspective / 4.5:
Uncertainty: Why Bridges Fall Down / 5.1:
Risk Mitigation: How Buildings Stand Up / 5.2:
From Safety Factor to Safety Index / 5.3:
Converting Safety Index into Probability of Failure / 5.4:
Quantitative Safety Goals: Probability vs. Consequence / 5.5:
Risk and Benefit: Balancing the Engineering Equation / 5.6:
From Risk Engineering to Risk Management / Chapter 6.:
Panama Canal: Recognizing and Managing Risk / 6.1:
Project Risk Assessment: Quantify Risk Triangle / 6.2:
Project Risk Control / 6.3:
Cost Risk - Interacting with Engineering Economy / Chapter 7.:
Engineering: The Art of Doing Well Inexpensively / 7.1:
Taguchi's Robust Design: Minimize Total Cost / 7.2:
Step 1: Identify System Function and Noise Factors / 7.3:
Step 2: Identify Total Cost-Function and Control Factors / 7.4:
Step 3: Design Matrix of Experiments and Define Data Analysis / 7.5:
Step 4: Conduct Experiments and Data Analysis / 7.6:
Step 5: Prediction of Cost-Risk Under Selected Parameter Levels / 7.7:
Life-Cycle Cost Management (LCCM) / 7.8:
Schedule Risk - Identifying and Controlling Critical Paths / Chapter 8.:
Schedule: Deliver Engineering Products on Time / 8.1:
Critical Path: Driver of Schedule Risk / 8.2:
Find and Analyze Critical Path / 8.3:
Schedule Risk for a Single Dominant Critical Path / 8.4:
Schedule Risk for Multiple Critical Paths / 8.5:
Integrated Risk Management and Computer Simulation / Chapter 9.:
An Integrated View of Risk / 9.1:
Integrated Risk Management / 9.2:
Incorporating the Impact of Schedule Risk / 9.3:
Monte-Carlo Simulation / 9.4:
Risk Assessment Software / Appendix A:
Failure Mode and Effect Analysis Software / Appendix B:
Index
Preface
Risk Engineering - Dealing with System Complexity and Engineering Dynamics / Chapter 1.:
Understanding Failure Is Critical to Engineering Success / 1.1:
7.

図書

図書
Rudolph Frederick Stapelberg
出版情報: London : Springer, c2009  xxiii, 827 p. ; 24 cm
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Engineering Design Integrity Overview / Part I:
Design Integrity Methodology / 1:
Designing for Integrity / 1.1:
Development and Scope of Design Integrity Theory / 1.1.1:
Designing for Reliability, Availability, Maintainability and Safety / 1.1.2:
Artificial Intelligence in Design / 1.2:
Development of Models and AIB Methodology / 1.2.1:
Artificial Intelligence in Engineering Design / 1.2.2:
Design Integrity and Automation / 2:
Industry Perception and Related Research / 2.1:
Industry Perception / 2.1.1:
Related Research / 2.1.2:
Intelligent Design Systems / 2.2:
The Future of Intelligent Design Systems / 2.2.1:
Design Automation and Evaluation Design Automation / 2.2.2:
Engineering Design Integrity Application / Part II:
Reliability and Performance in Engineering Design / 3:
Introduction / 3.1:
Theoretical Overview of Reliability and Performance in Engineering Design / 3.2:
Theoretical Overview of Reliability and Performance Prediction in Conceptual Design / 3.2.1:
Theoretical Overview of Reliability Assessment in Preliminary Design / 3.2.2:
Theoretical Overview of Reliability Evaluation in Detail Design / 3.2.3:
Analytic Development of Reliability and Performance in Engineering Design / 3.3:
Analytic Development of Reliability and Performance Prediction in Conceptual Design / 3.3.1:
Analytic Development of Reliability Assessment in Preliminary Design / 3.3.2:
Analytic Development of Reliability Evaluation in Detail Design / 3.3.3:
Application Modelling of Reliability and Performance in Engineering Design / 3.4:
The RAMS Analysis Application Model / 3.4.1:
Evaluation of Modelling Results / 3.4.2:
Application Modelling Outcome / 3.4.3:
Review Exercises and References / 3.5:
Availability and Maintainability in Engineering Design / 4:
Theoretical Overview of Availability and Maintainability in Engineering Design / 4.1:
Theoretical Overview of Availability and Maintainability Prediction in Conceptual Design / 4.2.1:
Theoretical Overview of Availability and Maintainability Assessment in Preliminary Design / 4.2.2:
Theoretical Overview of Availability and Maintainability Evaluation in Detail Design / 4.2.3:
Analytic Development of Availability and Maintainability in Engineering Design / 4.3:
Analytic Development of Availability and Maintainability Prediction in Conceptual Design / 4.3.1:
Analytic Development of Availability and Maintainability Assessment in Preliminary Design / 4.3.2:
Analytic Development of Availability and Maintainability Evaluation in Detail Design / 4.3.3:
Application Modelling of Availability and Maintainability in Engineering Design / 4.4:
Process Equipment Models (PEMs) / 4.4.1:
Safety and Risk in Engineering Design / 4.4.2:
Theoretical Overview of Safety and Risk in Engineering Design / 5.1:
Forward Search Techniques for Safety in Engineering Design / 5.2.1:
Theoretical Overview of Safety and Risk Prediction in Conceptual Design / 5.2.2:
Theoretical Overview of Safety and Risk Assessment in Preliminary Design / 5.2.3:
Theoretical Overview of Safety and Risk Evaluation in Detail Design / 5.2.4:
Analytic Development of Safety and Risk in Engineering Design / 5.3:
Analytic Development of Safety and Risk Prediction in Conceptual Design / 5.3.1:
Analytic Development of Safety and Risk Assessment in Preliminary Design / 5.3.2:
Analytic Development of Safety and Risk Evaluation in Detail Design / 5.3.3:
Application Modelling of Safety and Risk in Engineering Design / 5.4:
Artificial Intelligence-Based (AIB) Blackboard Model / 5.4.1:
Design Engineer's Scope of Work / 5.4.2:
Bibliography of Selected Literature / B:
Index
Engineering Design Integrity Overview / Part I:
Design Integrity Methodology / 1:
Designing for Integrity / 1.1:
8.

図書

図書
O. Ditlevsen, H.O. Madsen
出版情報: Chichester ; New York : Wiley, c1996  xi, 372 p. ; 26 cm
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9.

図書

図書
by J D Andrews and T R Moss
出版情報: London, UK : Professional Engineering Publishing, 2002  xxvi, 540 p ; 25 cm.
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10.

図書

図書
Leonard A. Doty
出版情報: New York, N.Y. : Industrial Press, c1985  x, 242 p. ; 24 cm
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