Reliability engineering / / Kailash C. Kapur, Michael Pecht |
Autore | Kapur Kailash C. <1941-> |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2014 |
Descrizione fisica | 1 online resource (514 p.) |
Disciplina | 620/.00452 |
Collana | Wiley Series in Systems Engineering and Management |
Soggetto topico | Reliability (Engineering) |
Soggetto genere / forma | Electronic books. |
ISBN |
1-118-84171-9
1-118-84179-4 1-118-84168-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title page; Copyright page; Contents; Preface; 1: Reliability Engineering in the Twenty-First Century; 1.1 What Is Quality?; 1.2 What Is Reliability?; 1.2.1 The Ability to Perform as Intended; 1.2.2 For a Specified Time; 1.2.3 Life-Cycle Conditions; 1.2.4 Reliability as a Relative Measure; 1.3 Quality, Customer Satisfaction, and System Effectiveness; 1.4 Performance, Quality, and Reliability; 1.5 Reliability and the System Life Cycle; 1.6 Consequences of Failure; 1.6.1 Financial Loss; 1.6.2 Breach of Public Trust; 1.6.3 Legal Liability; 1.6.4 Intangible Losses
1.7 Suppliers and Customers1.8 Summary; Problems; 2: Reliability Concepts; 2.1 Basic Reliability Concepts; 2.1.1 Concept of Probability Density Function; 2.2 Hazard Rate; 2.2.1 Motivation and Development of Hazard Rate; 2.2.2 Some Properties of the Hazard Function; 2.2.3 Conditional Reliability; 2.3 Percentiles Product Life; 2.4 Moments of Time to Failure; 2.4.1 Moments about Origin and about the Mean; 2.4.2 Expected Life or Mean Time to Failure; 2.4.3 Variance or the Second Moment about the Mean; 2.4.4 Coefficient of Skewness; 2.4.5 Coefficient of Kurtosis; 2.5 Summary; Problems 3: Probability and Life Distributions for Reliability Analysis3.1 Discrete Distributions; 3.1.1 Binomial Distribution; 3.1.2 Poisson Distribution; 3.1.3 Other Discrete Distributions; 3.2 Continuous Distributions; 3.2.1 Weibull Distribution; 3.2.2 Exponential Distribution; 3.2.3 Estimation of Reliability for Exponential Distribution; 3.2.4 The Normal (Gaussian) Distribution; 3.2.5 The Lognormal Distribution; 3.2.6 Gamma Distribution; 3.3 Probability Plots; 3.4 Summary; Problems; 4: Design for Six Sigma; 4.1 What Is Six Sigma?; 4.2 Why Six Sigma?; 4.3 How Is Six Sigma Implemented? 4.3.1 Steps in the Six Sigma Process4.3.2 Summary of the Six Sigma Steps; 4.4 Optimization Problems in the Six Sigma Process; 4.4.1 System Transfer Function; 4.4.2 Variance Transmission Equation; 4.4.3 Economic Optimization and Quality Improvement; 4.4.4 Tolerance Design Problem; 4.5 Design for Six Sigma; 4.5.1 Identify (I); 4.5.2 Characterize (C); 4.5.3 Optimize (O); 4.5.4 Verify (V); 4.6 Summary; Problems; 5: Product Development; 5.1 Product Requirements and Constraints; 5.2 Product Life Cycle Conditions; 5.3 Reliability Capability; 5.4 Parts and Materials Selection 5.5 Human Factors and Reliability5.6 Deductive versus Inductive Methods; 5.7 Failure Modes, Effects, and Criticality Analysis; 5.8 Fault Tree Analysis; 5.8.1 Role of FTA in Decision-Making; 5.8.2 Steps of Fault Tree Analysis; 5.8.3 Basic Paradigms for the Construction of Fault Trees; 5.8.4 Definition of the Top Event; 5.8.5 Faults versus Failures; 5.8.6 Minimal Cut Sets; 5.9 Physics of Failure; 5.9.1 Stress Margins; 5.9.2 Model Analysis of Failure Mechanisms; 5.9.3 Derating; 5.9.4 Protective Architectures; 5.9.5 Redundancy; 5.9.6 Prognostics; 5.10 Design Review; 5.11 Qualification 5.12 Manufacture and Assembly |
Record Nr. | UNISA-996215838803316 |
Kapur Kailash C. <1941-> | ||
Hoboken, New Jersey : , : Wiley, , 2014 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Reliability engineering / / Kailash C. Kapur, Michael Pecht |
Autore | Kapur Kailash C. <1941-> |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2014 |
Descrizione fisica | 1 online resource (514 p.) |
Disciplina | 620/.00452 |
Collana | Wiley Series in Systems Engineering and Management |
Soggetto topico | Reliability (Engineering) |
ISBN |
1-118-84171-9
1-118-84179-4 1-118-84168-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title page; Copyright page; Contents; Preface; 1: Reliability Engineering in the Twenty-First Century; 1.1 What Is Quality?; 1.2 What Is Reliability?; 1.2.1 The Ability to Perform as Intended; 1.2.2 For a Specified Time; 1.2.3 Life-Cycle Conditions; 1.2.4 Reliability as a Relative Measure; 1.3 Quality, Customer Satisfaction, and System Effectiveness; 1.4 Performance, Quality, and Reliability; 1.5 Reliability and the System Life Cycle; 1.6 Consequences of Failure; 1.6.1 Financial Loss; 1.6.2 Breach of Public Trust; 1.6.3 Legal Liability; 1.6.4 Intangible Losses
1.7 Suppliers and Customers1.8 Summary; Problems; 2: Reliability Concepts; 2.1 Basic Reliability Concepts; 2.1.1 Concept of Probability Density Function; 2.2 Hazard Rate; 2.2.1 Motivation and Development of Hazard Rate; 2.2.2 Some Properties of the Hazard Function; 2.2.3 Conditional Reliability; 2.3 Percentiles Product Life; 2.4 Moments of Time to Failure; 2.4.1 Moments about Origin and about the Mean; 2.4.2 Expected Life or Mean Time to Failure; 2.4.3 Variance or the Second Moment about the Mean; 2.4.4 Coefficient of Skewness; 2.4.5 Coefficient of Kurtosis; 2.5 Summary; Problems 3: Probability and Life Distributions for Reliability Analysis3.1 Discrete Distributions; 3.1.1 Binomial Distribution; 3.1.2 Poisson Distribution; 3.1.3 Other Discrete Distributions; 3.2 Continuous Distributions; 3.2.1 Weibull Distribution; 3.2.2 Exponential Distribution; 3.2.3 Estimation of Reliability for Exponential Distribution; 3.2.4 The Normal (Gaussian) Distribution; 3.2.5 The Lognormal Distribution; 3.2.6 Gamma Distribution; 3.3 Probability Plots; 3.4 Summary; Problems; 4: Design for Six Sigma; 4.1 What Is Six Sigma?; 4.2 Why Six Sigma?; 4.3 How Is Six Sigma Implemented? 4.3.1 Steps in the Six Sigma Process4.3.2 Summary of the Six Sigma Steps; 4.4 Optimization Problems in the Six Sigma Process; 4.4.1 System Transfer Function; 4.4.2 Variance Transmission Equation; 4.4.3 Economic Optimization and Quality Improvement; 4.4.4 Tolerance Design Problem; 4.5 Design for Six Sigma; 4.5.1 Identify (I); 4.5.2 Characterize (C); 4.5.3 Optimize (O); 4.5.4 Verify (V); 4.6 Summary; Problems; 5: Product Development; 5.1 Product Requirements and Constraints; 5.2 Product Life Cycle Conditions; 5.3 Reliability Capability; 5.4 Parts and Materials Selection 5.5 Human Factors and Reliability5.6 Deductive versus Inductive Methods; 5.7 Failure Modes, Effects, and Criticality Analysis; 5.8 Fault Tree Analysis; 5.8.1 Role of FTA in Decision-Making; 5.8.2 Steps of Fault Tree Analysis; 5.8.3 Basic Paradigms for the Construction of Fault Trees; 5.8.4 Definition of the Top Event; 5.8.5 Faults versus Failures; 5.8.6 Minimal Cut Sets; 5.9 Physics of Failure; 5.9.1 Stress Margins; 5.9.2 Model Analysis of Failure Mechanisms; 5.9.3 Derating; 5.9.4 Protective Architectures; 5.9.5 Redundancy; 5.9.6 Prognostics; 5.10 Design Review; 5.11 Qualification 5.12 Manufacture and Assembly |
Record Nr. | UNINA-9910139142803321 |
Kapur Kailash C. <1941-> | ||
Hoboken, New Jersey : , : Wiley, , 2014 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Reliability engineering / / Kailash C. Kapur, Michael Pecht |
Autore | Kapur Kailash C. <1941-> |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2014 |
Descrizione fisica | 1 online resource (514 p.) |
Disciplina | 620/.00452 |
Collana | Wiley Series in Systems Engineering and Management |
Soggetto topico | Reliability (Engineering) |
ISBN |
1-118-84171-9
1-118-84179-4 1-118-84168-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Title page; Copyright page; Contents; Preface; 1: Reliability Engineering in the Twenty-First Century; 1.1 What Is Quality?; 1.2 What Is Reliability?; 1.2.1 The Ability to Perform as Intended; 1.2.2 For a Specified Time; 1.2.3 Life-Cycle Conditions; 1.2.4 Reliability as a Relative Measure; 1.3 Quality, Customer Satisfaction, and System Effectiveness; 1.4 Performance, Quality, and Reliability; 1.5 Reliability and the System Life Cycle; 1.6 Consequences of Failure; 1.6.1 Financial Loss; 1.6.2 Breach of Public Trust; 1.6.3 Legal Liability; 1.6.4 Intangible Losses
1.7 Suppliers and Customers1.8 Summary; Problems; 2: Reliability Concepts; 2.1 Basic Reliability Concepts; 2.1.1 Concept of Probability Density Function; 2.2 Hazard Rate; 2.2.1 Motivation and Development of Hazard Rate; 2.2.2 Some Properties of the Hazard Function; 2.2.3 Conditional Reliability; 2.3 Percentiles Product Life; 2.4 Moments of Time to Failure; 2.4.1 Moments about Origin and about the Mean; 2.4.2 Expected Life or Mean Time to Failure; 2.4.3 Variance or the Second Moment about the Mean; 2.4.4 Coefficient of Skewness; 2.4.5 Coefficient of Kurtosis; 2.5 Summary; Problems 3: Probability and Life Distributions for Reliability Analysis3.1 Discrete Distributions; 3.1.1 Binomial Distribution; 3.1.2 Poisson Distribution; 3.1.3 Other Discrete Distributions; 3.2 Continuous Distributions; 3.2.1 Weibull Distribution; 3.2.2 Exponential Distribution; 3.2.3 Estimation of Reliability for Exponential Distribution; 3.2.4 The Normal (Gaussian) Distribution; 3.2.5 The Lognormal Distribution; 3.2.6 Gamma Distribution; 3.3 Probability Plots; 3.4 Summary; Problems; 4: Design for Six Sigma; 4.1 What Is Six Sigma?; 4.2 Why Six Sigma?; 4.3 How Is Six Sigma Implemented? 4.3.1 Steps in the Six Sigma Process4.3.2 Summary of the Six Sigma Steps; 4.4 Optimization Problems in the Six Sigma Process; 4.4.1 System Transfer Function; 4.4.2 Variance Transmission Equation; 4.4.3 Economic Optimization and Quality Improvement; 4.4.4 Tolerance Design Problem; 4.5 Design for Six Sigma; 4.5.1 Identify (I); 4.5.2 Characterize (C); 4.5.3 Optimize (O); 4.5.4 Verify (V); 4.6 Summary; Problems; 5: Product Development; 5.1 Product Requirements and Constraints; 5.2 Product Life Cycle Conditions; 5.3 Reliability Capability; 5.4 Parts and Materials Selection 5.5 Human Factors and Reliability5.6 Deductive versus Inductive Methods; 5.7 Failure Modes, Effects, and Criticality Analysis; 5.8 Fault Tree Analysis; 5.8.1 Role of FTA in Decision-Making; 5.8.2 Steps of Fault Tree Analysis; 5.8.3 Basic Paradigms for the Construction of Fault Trees; 5.8.4 Definition of the Top Event; 5.8.5 Faults versus Failures; 5.8.6 Minimal Cut Sets; 5.9 Physics of Failure; 5.9.1 Stress Margins; 5.9.2 Model Analysis of Failure Mechanisms; 5.9.3 Derating; 5.9.4 Protective Architectures; 5.9.5 Redundancy; 5.9.6 Prognostics; 5.10 Design Review; 5.11 Qualification 5.12 Manufacture and Assembly |
Record Nr. | UNINA-9910813188803321 |
Kapur Kailash C. <1941-> | ||
Hoboken, New Jersey : , : Wiley, , 2014 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|