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The Resource Fatigue and fracture reliability engineering, J.J. Xiong, R.A. Shenoi

Fatigue and fracture reliability engineering, J.J. Xiong, R.A. Shenoi

Label
Fatigue and fracture reliability engineering
Title
Fatigue and fracture reliability engineering
Statement of responsibility
J.J. Xiong, R.A. Shenoi
Creator
Contributor
Subject
Language
eng
Member of
Cataloging source
BTCTA
http://library.link/vocab/creatorName
Xiong, J. J
Illustrations
illustrations
Index
no index present
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/relatedWorkOrContributorName
Shenoi, R. A
Series statement
Springer series in reliability engineering,
http://library.link/vocab/subjectName
  • Reliability (Engineering)
  • Fracture mechanics
  • Materials
Label
Fatigue and fracture reliability engineering, J.J. Xiong, R.A. Shenoi
Instantiates
Publication
Bibliography note
Includes bibliographical references
Contents
1. Deterministic Theorem on Fatigue and Fracture -- 1.1. Introduction -- 1.2. Fatigue Failure Character and Fracture Analysis -- 1.3. Cyclic Stress and S--N Curve -- 1.4. Constant Life Curve and Generalized Fatigue S--N Surface -- 1.5. Stress State and Growth Mode of Penetrated Crack -- 1.6. Crack Growth Rate and Generalized Fracture S--N Surface -- 1.7. Total Life Prediction -- References -- 2. Reliability and Confidence Levels of Fatigue Life -- 2.1. Introduction -- 2.2. Basic Concepts in Fatigue Statistics -- 2.3. Probability Distribution of Fatigue Life -- 2.4. Point Estimation of Population Parameter -- 2.5. Interval Estimation of Population Mean and Standard Deviation -- 2.6. Interval Estimation of Population Percentile -- References -- 3. Principles Underpinning Reliability based Prediction of Fatigue and Fracture Behaviours -- 3.1. Introduction -- 3.2. A Randomized Approach to a Deterministic Equation -- 3.3. Single-Point Likelihood Method -- 3.4. Generalized Constant Life Curve and Two-Dimensional Probability Distribution of Generalized Strength -- 3.5. Full-range S--N Curve and Crack Growth Rate Curve with Four Parameters -- 3.6. Reliability Determination of Fatigue Behaviour Based on Incomplete Data -- References -- 4. Data Treatment and Generation of Fatigue Load Spectrum -- 4.1. Introduction -- 4.2. Rain Flow-Loop Line Scheme -- 4.3. Two-Dimensional Probability Distribution of Fatigue Load -- 4.4. Quantification Criteria to Identify Load Cycle -- 4.5. Equivalent Damage Formulations -- 4.6. Experimental Verification -- 4.6.1. Test 4.1 -- 4.6.2. Test 4.2 -- 4.6.3. Test 4.3 -- 4.7. Application in Full-Scale Fatigue Test of Helicopter Tail -- References -- 5. Reliability Design and Assessment for Total Structural Life -- 5.1. Introduction -- 5.2. Probability Method for Infinite Life Design -- 5.3. A Generalised Interference Model -- 5.4. Fracture Interference Model -- 5.5. Reduction Factor -- 5.6. Scatter Factor -- 5.7. Durability Model to Assess Economic Structural Life -- References -- 6. Reliability Prediction for Fatigue Damage and Residual Life in Composites -- 6.1. Introduction -- 6.2. Two-Stage Theory on Composite Fatigue Damage -- 6.3. Fatigue-Driven Residual Strength Model Based on Controlling Fatigue Stress -- 6.4. Fatigue-Driven Residual Strength Model Based on Controlling Fatigue Strain -- 6.5. Constitutive Relations for Composite Damage -- 6.6. Stress Concentration of Notched Anisotropic Laminate -- 6.7. Composite Damage Evolution Equation and Generalized σ-N Surface -- References -- 7. Chaotic Fatigue -- 7.1. Introduction -- 7.2. Nonlinear Differential Kinetic Model of Atomic Motion at Crack Tip -- 7.3. Hopf Bifurcation of Atomic Motion at Crack Tip -- 7.4. Global Bifurcation of Atomic Motion at Crack Tip -- 7.5. Stochastic Bifurcation of Atomic Motion at Crack Tip -- 7.6. Solution of Fatigue Damage FPK (Fokker-Planc-Kolgmorov) Equation -- 7.7. Damage Probability Distributions for Fatigue Crack Formation and Propagation
Control code
ocn690089755
Extent
1 online resource (xiii, 214 p.)
Isbn
9780857292179
Isbn Type
(hbk.)
Other physical details
ill. (some col.)
System control number
(OCoLC)690089755
Label
Fatigue and fracture reliability engineering, J.J. Xiong, R.A. Shenoi
Publication
Bibliography note
Includes bibliographical references
Contents
1. Deterministic Theorem on Fatigue and Fracture -- 1.1. Introduction -- 1.2. Fatigue Failure Character and Fracture Analysis -- 1.3. Cyclic Stress and S--N Curve -- 1.4. Constant Life Curve and Generalized Fatigue S--N Surface -- 1.5. Stress State and Growth Mode of Penetrated Crack -- 1.6. Crack Growth Rate and Generalized Fracture S--N Surface -- 1.7. Total Life Prediction -- References -- 2. Reliability and Confidence Levels of Fatigue Life -- 2.1. Introduction -- 2.2. Basic Concepts in Fatigue Statistics -- 2.3. Probability Distribution of Fatigue Life -- 2.4. Point Estimation of Population Parameter -- 2.5. Interval Estimation of Population Mean and Standard Deviation -- 2.6. Interval Estimation of Population Percentile -- References -- 3. Principles Underpinning Reliability based Prediction of Fatigue and Fracture Behaviours -- 3.1. Introduction -- 3.2. A Randomized Approach to a Deterministic Equation -- 3.3. Single-Point Likelihood Method -- 3.4. Generalized Constant Life Curve and Two-Dimensional Probability Distribution of Generalized Strength -- 3.5. Full-range S--N Curve and Crack Growth Rate Curve with Four Parameters -- 3.6. Reliability Determination of Fatigue Behaviour Based on Incomplete Data -- References -- 4. Data Treatment and Generation of Fatigue Load Spectrum -- 4.1. Introduction -- 4.2. Rain Flow-Loop Line Scheme -- 4.3. Two-Dimensional Probability Distribution of Fatigue Load -- 4.4. Quantification Criteria to Identify Load Cycle -- 4.5. Equivalent Damage Formulations -- 4.6. Experimental Verification -- 4.6.1. Test 4.1 -- 4.6.2. Test 4.2 -- 4.6.3. Test 4.3 -- 4.7. Application in Full-Scale Fatigue Test of Helicopter Tail -- References -- 5. Reliability Design and Assessment for Total Structural Life -- 5.1. Introduction -- 5.2. Probability Method for Infinite Life Design -- 5.3. A Generalised Interference Model -- 5.4. Fracture Interference Model -- 5.5. Reduction Factor -- 5.6. Scatter Factor -- 5.7. Durability Model to Assess Economic Structural Life -- References -- 6. Reliability Prediction for Fatigue Damage and Residual Life in Composites -- 6.1. Introduction -- 6.2. Two-Stage Theory on Composite Fatigue Damage -- 6.3. Fatigue-Driven Residual Strength Model Based on Controlling Fatigue Stress -- 6.4. Fatigue-Driven Residual Strength Model Based on Controlling Fatigue Strain -- 6.5. Constitutive Relations for Composite Damage -- 6.6. Stress Concentration of Notched Anisotropic Laminate -- 6.7. Composite Damage Evolution Equation and Generalized σ-N Surface -- References -- 7. Chaotic Fatigue -- 7.1. Introduction -- 7.2. Nonlinear Differential Kinetic Model of Atomic Motion at Crack Tip -- 7.3. Hopf Bifurcation of Atomic Motion at Crack Tip -- 7.4. Global Bifurcation of Atomic Motion at Crack Tip -- 7.5. Stochastic Bifurcation of Atomic Motion at Crack Tip -- 7.6. Solution of Fatigue Damage FPK (Fokker-Planc-Kolgmorov) Equation -- 7.7. Damage Probability Distributions for Fatigue Crack Formation and Propagation
Control code
ocn690089755
Extent
1 online resource (xiii, 214 p.)
Isbn
9780857292179
Isbn Type
(hbk.)
Other physical details
ill. (some col.)
System control number
(OCoLC)690089755

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