Reliability Assessments : Concepts, Models, and Case Studies

This book provides engineers and scientists with a single source introduction to the concepts, models, and case studies for making credible reliability assessments. It satisfies the need for thorough discussions of several fundamental subjects.

Section I contains a comprehensive overview of assessing and assuring reliability that is followed by discussions of:

• Concept of randomness and its relationship to chaos
• Uses and limitations of the binomial and Poisson distributions
• Relationship of the chi-square method and Poisson curves
• Derivations and applications of the exponential, Weibull, and lognormal models
• Examination of the human mortality bathtub curve as a template for components

Section II introduces the case study modeling of failure data and is followed by analyses of:

• 5 sets of ideal Weibull, lognormal, and normal failure data
• 83 sets of actual (real) failure data

The intent of the modeling was to find the best descriptions of the failures using statistical life models, principally the Weibull, lognormal, and normal models, for characterizing the failure probability distributions of the times-, cycles-, and miles-to-failure during laboratory or field testing. The statistical model providing the preferred characterization was determined empirically by choosing the two-parameter model that gave the best straight-line fit in the failure probability plots using a combination of visual inspection and three statistical goodness-of-fit (GoF) tests.

This book offers practical insight in dealing with single item reliability and illustrates the use of reliability methods to solve industry problems. 

• Contains the fundamental concepts, statistical models, and examples needed to understand and make credible reliability assessments
• Provides a thorough discussion of several fundamental subjects that every reliability engineer should understand or should want to understand
• Includes five sets of ideal Weibull, Lognormal, and Normal failure data followed by the analyses of 77 sets of real failure data
• Offers practical insight as it deals with single item reliability
• Illustrates the utilization of reliability methods to solve industry problems

Preface
Acknowledgements
Author

Section I : Concepts and Models
Chapter 1 : Overview of Reliability Assessments
Chapter 2 : Concept of Randomness
Chapter 3 : Probability & Sampling
Chapter 4 : Reliability Functions
Chapter 5 : Reliability Model : Exponential
Chapter 6 : Reliability Models : Weibull & Lognormal
Chapter 7 :  Bathtub Curves for Humans & Components

Section II : Case Studies
Chapter 8 : Introduction Modeling of Failure Data
Chapter 9 : 50 Ideal Weibull Devices
Chapter 10 : 50 Ideal Lognormal Devices
Chapter 11 : 50 Ideal Normal Devices
Chapter 12 : 5 Ideal Weibull and Lognormal Devices
Chapter 13 : 9 Unidentified Components
Chapter 14 : 10 Insulated Cable Specimens
Chapter 15 : 10 Steel Specimens
Chapter 16 : 12 Electrical Insulation Specimens
Chapter 17 : 13 Airplane Components
Chapter 18 : 15 Pieces of Equipment
Chapter 19 : 18 Unknown Items
Chapter 20 : 19 Personnel Carriers
Chapter 21 : 19 Insulating Fluid Specimens (34 kV)
Chapter 22 : 20 Unspecified Items
Chapter 23 : 20 Dielectric Specimens
Chapter 24 : 20 Batteries
Chapter 25 : 20 Epoxy Insulation Specimens
Chapter 26 : 20 Electric Carts
Chapter 27 : 20 Wires and Bonds
Chapter 28 : 20 Electrical Insulation Samples
Chapter 29 : 23 Deep-Groove Ball Bearings
Chapter 30 : 25 Deep-Groove Ball Bearings : Reinterpretation
Chapter 31 : 24 Steel Specimens
Chapter 32 : 24 Transistors
Chapter 33 : 25 Specimens of Yarn
Chapter 34 : 25 Steel Rods
Chapter 35 : 25 Undisclosed Specimens
Chapter 36 : 26 Carbon Fibres in Resign (L = 75 mm)
Chapter 37 : 26 Failures of a Radar System
Chapter 38 : 28 Bundles of Carbon Fibres (L= 20 mm)
Chapter 39 : 29 Bundles of Carbon Fibres (L= 300 mm)
Chapter 40 : 30 Laser Welds
Chapter 41 : 32 Centrifugal Pumps
Chapter 42 : 34 Transisters
Chapter 43 : 35 Grooved Steel Specimens
Chapter 44 : 36 Electrical Appliances
Chapter 45 : 36 Failures of a 500 MW Generator
Chapter 46 : 40 Undesigned Parts
Chapter 47 : 43 Vaccum Tubes
Chapter 48 : 46 Repairs for a Transceiver
Chapter 49 : 47 Thin Film Devices
Chapter 50 : 50 Throttles
Chapter 51 : 50 Unknown Items
Chapter 52 : 50 Electrical Units
Chapter 53 : 50 Bearings
Chapter 54 : 50 Deep-Groove Ball Bearings
Chapter 55 : 57 Aluminium Samples
Chapter 56 : 57 Carbon Fibres (L= 1 mm)
Chapter 57 : 59 Aluminium Conductors
Chapter 58 : 60 Appliances
Chapter 59 : 64 Carbon Fibres (L = 10 mm)
Chapter 60 : 66 Carbon Fibres (L = 50mm)
Chapter 61 : 70 Carbon Fibres (L = 20 mm)
Chapter 62 : 72 Alloys T7987 Samples
Chapter 63 : 85 Adhesive Samples
Chapter 64 : 96 Locomotive Controls
Chapter 65 : 98 Brake Pads
Chapter 66 : 100 Fuses
Chapter 67 : 100 Kevlar Fibres
Chapter 68 : 100 Unnamed items
Chapter 69 : 100 Unspecified Samples
Chapter 70 : 101 Aluminium Coupons (21 kpsi)
Chapter 71 : 101 Aluminium Coupons (31 kpsi)
Chapter 72 : 101 Aluminium Coupons (26 kpsi)
Chapter 73 : 104 GaAs Lasers
Chapter 74 : 107 Radio Transmitters
Chapter 75 : 109 Mining Accidents
Chapter 76 : 110 Tires
Chapter 77 : 137 Carbon Fibres
Chapter 78 : 148 Deep-Groove Ball Bearings
Chapter 79 : 153 Aircraft Windshields
Chapter 80 : 417 Light Bulbs

Index