Introduction to Quality and Reliability Engineer

定　价：¥145.00

作　者：	蒋仁言
出版社：	科学出版社
丛编项：
标　签：	暂缺

购买这本书可以去

ISBN：	9787030442574	出版时间：	2015-06-01	包装：
开本：	16开	页数：	348	字数：

内容简介

　　《Introduction to Quality and Reliability Engineering》从产品全寿命过程的观点，介绍产品在不同阶段与质量、可靠性有关的活动，相应的概念、模型和技术。重点围绕产品可靠性与质量的保证、评估和改进展开论述。同时也涉及质量与可靠性管理的问题。《Introduction to Quality and Reliability Engineering》共15章，分为四个部分。第1章为概述；第2～4章介绍制造工程的有关知识；第5～8章为可靠性建模技术，确定产品可靠性要求的方法；第9～13章介绍影响产品质量的各种因素；第14～15章介绍产品质量和可靠性管理有关的方法与技术。《Introduction to Quality and Reliability Engineering》对质量与可靠性工程提供一个全面的介绍和实用的技术。为配合双语教学，帮助读者熟悉英文专业术语及了解有关的英文文献，《Introduction to Quality and Reliability Engineering》用英文撰写。

作者简介

暂缺《Introduction to Quality and Reliability Engineer》作者简介

图书目录

Part I Background Materials
1.0 verview
1.1 Introduction
1.2 Product and Product Life Cycle
1.2.2 Product Life Cycle
1.2.3 Technology Life Cycle of a Product
1.3 Notions of Reliability and Quality
1.3.1 Product Reliability
1.3.2 Product Quality
1.3.3 Link Between Quality and Reliability
1.4 0bjective， Scope，and Focus of this Book
1.5 0utline of the Book
References
2 Engineering Activities in Product Life Cycle
2.1 Introduction
2.2 Engineering Activities in Pre-manufacturing Phase
2.2.1 Main Activities in Front- End Stage
2.2.2 Main Activities in Design and Development Stage
2.3 Engineering Activities in Production Phase
2.3.1 Types of Production Systems
2.3.2 Production System Design
2.3.3 Quality Control System Design
2.3.4 Production Management
2.4 Engineering Activities in Post-manufacturing Phase
2.4.1 Main Activities in Marketing Stage
2.4.2 Main Activities in Post-sale Support Stage
2.4.3 Recycle， Refurbishing，and Remanufacturing
2.5 Approach for Solving Quality and Reliability Problems
References
3 Fundamental of Reliability
3.1 Introduction
3.2 Concepts of Reliability and Failure
3.2.1 Reliability
3.2.2 Failure
3.2.3 Failure Mode and Cause
3.2.4 Failure Mechanism
3.2.5 Failure Severity and Consequences
3.2.6 Modeling Failures
3.3 Reliability Basic Functions
3.3.1 Probability Density Function
3.3.2 Cumulative Distribution and Reliability Functions
3.3.3 Conditional Distribution and Residual Life
3.3.4 Failure Rate and Cumulative Hazard Functions
3.3.5 Relations Between Reliability Basic Functions
3.4 Component Bathtub Curve and Hockey- Stick Line
3.5 Life Characteristics
3.5.1 Measures of Lifetime
3.5.2 Dispersion of Lifetime
3.5.3 Skewness and Kurtosis of Life Distribution
3.6 Reliability of Repairable Systems
3.6.1 Failure- Repair Process
3.6.2 Reliability Measures
3.6.3 Failure Point Process
3.7 Evolution of Reliability Over Product Life Cycle
3.7.1 Design Reliability
3.7.2 Inherent Reliability
3.7.3 Reliability at Sale
3.7.4 Field Reliability
3.7.5 ValuesofWeibull Shape Parameter Associated with Different Reliability Notions
References484 Distribution Models
4.1 Introduction
4.2 Discrete Distributions
4.2.1 Basic Functions of a Discrete Distribution
4.2.2 Single- Parameter Models
4.2.3 Two- Parameter Models
4.2.4 Hypergeomefflc Distribution
4.3 Simple Continuous Distributions
4.3.1 Weibull Distribution
4.3.2 Gamma Distribution
4.3.3 Lognormal Distribution
4.4 Complex Disfflbution Models Involving Multiple Simple Distributions
4.4.1 Mixture Model
4.4.2 Competing Risk Model
4.4.3 Multiplicative Model
4.4.4 Sectional Models
4.5 Delay Time Model
References
5 Statistical Methods for Lifetime DataAnalysis
5.1 Introduction
5.2.1 Sources and Types of Data
5.2.2 Life Data
5.2.3 Performance Degradation Data
5.2.4 Data on Use Condition and Environment
5.3 Nonparametric Estimation Methodsforcdf
5.3.1 Complete Data Case
5.3.2 Grouped Data Case
5.3.3 Alternately Censored Data Case
5.4 Parameter Estimation Methods
5.4.1 Graphical Method
5.4.2 Method of Moments
5.4.3 Maximum Likelihood Method
5.4.4 Least Square Method
5.4.5 Expectation- Maximum Method
5.5 Hypothesis Testing
5.5.1 Chi Square Test
5.5.2 Kolmogorov- Smirnov Test
5.6 Model Selection
5.6.1 Likelihood Ratio Test
5.6.2 Information Criterion
References
Reliability Modeling of Repairable Systems
6.1 Introduction
6.2 Failure Counting Process Models
6.2.1 Renewal Process
6.2.2 Homogeneous Poisson Process
6.2.3 Nonhomogeneous Poisson Process
6.2.4 Empirical Mean Cumulative Function
6.3 Distribution Models for Modeling Failure Processes
6.3.1 0rdinary Life Distribution Models
6.3.2 Imperfect Maintenance Models
6.3.3 Variable- Parameter Distribution Models
6.4 A Procedure for Modeling Failure Processes
6.4.1 An Illustration
6.4.2 Modeling Procedure
6.5 Tests for Stationarity
6.5.1 Graphical Methods
6.5.2 Tests with H P P Null Hypothesis
6.5.3 Tests with R P Null Hypothesis
6.5.4 Performances of Trend Tests
6.6 Tests for Randomness
6.6.1 Runs Above and Below Median Test
6.6.2 Sign Test
6.6.3 Runs Up and Down
6.6.4 Mann-Kendall Test
6.6.5 Spearman Test
6.6.6 Discussion
6.7 Tests for Normality and ConstantVariance
6.7.1 Tests for Normality
6.7.2 Tests for ConstantVariance
References
Part I I Product Quality and Reliability in Pre-manufacturing Phase
7 Product Design and DesignforX
7.1 Introduction
7.2 Product Design and Relevant Issues
7.2.1 Product Design
7.2.2 Key Issues
7.2.3 Time- Based Product Design
7.2.4 Design for Life Cycle
7.2.5 DesignforX11573 Design for Several Overall Performances
7.3.1 Design for Safety
7.3.2 Design for Environment
7.3.3 Design forQuality
7.3.4 Design for Reliability
7.3.5 Design for Testability
7.4 Design for Production- Related Performances
……