05390nam 2200685 a 450 991087808190332120200520144314.01-280-84776-X97866108477610-470-61214-20-470-39479-X1-84704-604-5(CKB)1000000000335541(EBL)700755(OCoLC)769341538(SSID)ssj0000153738(PQKBManifestationID)11158764(PQKBTitleCode)TC0000153738(PQKBWorkID)10393147(PQKB)11387266(MiAaPQ)EBC700755(MiAaPQ)EBC261990(Au-PeEL)EBL261990(OCoLC)501315460(EXLCZ)99100000000033554120060623d2006 uy 0engur|n|---|||||txtccrFatigue life analyses of welded structures /Tom Lassen, Naman RechoLondon ;Newport Beach, CA ISTE20061 online resource (434 p.)ISTE ;v.114Description based upon print version of record.1-905209-54-1 Includes bibliographical references and index.Fatigue Life Analyses of Welded Structures; Table of Contents; Abbreviations; PART I. Common Practice; Chapter 1. Introduction; 1.1. The importance of welded joints and their fatigue behavior; 1.2. Objectives and scope of the book; 1.3. The content of the various chapters; 1.4. Other literature in the field; 1.5. Why should the practicing engineer apply reliability methods?; 1.6. How to work with this book; 1.7. About the authors; Chapter 2. Basic Characterization of the Fatigue Behavior of Welded Joints; 2.1. Introduction and objectives; 2.2. Fatigue failures2.3. Basic mechanisms of metal fatigue2.4. Parameters that are important to the fatigue damage process; 2.4.1. External loading and stresses in an item; 2.4.2. Geometry, stress and strain concentrations; 2.4.3. Material parameters; 2.4.4. Residual stresses; 2.4.5. Fabrication quality and surface finish; 2.4.6. Influence of the environment; 2.5. Important topics for welded joints; 2.5.1. General overview; 2.6. Various types of joints; 2.6.1. Plated joints; 2.6.2. Tubular joints; 2.7. References; Chapter 3. Experimental Methods and Data Analysis; 3.1. Introduction and objectives3.2. Overview of various types of tests3.3. Stress-life testing (S-N testing) of welded joints; 3.3.1. Test specimens and test setup; 3.3.2. Preparations and measurements; 3.3.3. Test results; 3.4. Testing to determine the parameters in the strain-life equation; 3.5. Crack growth tests - guidelines for test setup and specimen monitoring; 3.6. Elementary statistical methods; 3.6.1. Linear regression analyses; 3.7. References; Chapter 4. Definition and Description of Fatigue Loading; 4.1. Introduction and objectives; 4.2. Constant amplitude loading; 4.3. Variable amplitude loading4.3.1. Overview4.3.2. Rain-flow cycle counting of time series; 4.3.3. The energy spectrum approach; 4.4. References; Chapter 5. The S-N Approach; 5.1. Introduction and objectives; 5.2. Method, assumptions and important factors; 5.2.1. Statistics for the S-N approach, median and percentile curves; 5.2.2. Discussion of S-N curves-important factors; 5.2.2.1. The threshold phenomenon; 5.2.2.2. Mean stress and loading ratio; 5.2.2.3. Stress relieving; 5.2.2.4. The thickness effect; 5.2.2.5. Misalignment; 5.2.2.6. Post-weld improvement techniques; 5.2.2.7. Corrosive environment5.3. Mathematics for damage calculations5.3.1. Linear damage accumulation; load spectrum on a histogram format; 5.3.2. Discussion of the validity of the linear damage accumulation; 5.3.3. Definition of the equivalent stress range; 5.3.4. Load spectrum on the format of a Weibull distribution; 5.4. S-N curves related to various stress definitions; 5.4.1. Nominal stress, geometrical stress and weld notch stresses; 5.4.2. Geometrical stresses in tubular joints; 5.4.3. Fatigue life estimate based on the weld notch stress approach; 5.4.4. Conclusions on the various stress approaches5.5. Some comments on finite element analysisAvoiding or controlling fatigue damage is a major issue in the design and inspection of welded structures subjected to dynamic loading. Life predictions are usually used for safe life analysis, i.e. for verifying that it is very unlikely that fatigue damage will occur during the target service life of a structure. Damage tolerance analysis is used for predicting the behavior of a fatigue crack and for planning of in-service scheduled inspections. It should be a high probability that any cracks appearing are detected and repaired before they become critical. In both safe life analysis and the ISTEWelded jointsFatigueWelded steel structuresWelded jointsFatigue.Welded steel structures.671.5/2042Lassen Tom978946Recho Naman855341MiAaPQMiAaPQMiAaPQBOOK9910878081903321Fatigue life analyses of welded structures2231454UNINA