Fatigue and Fracture
Volume 19 is a resource for basic concepts, alloy property data, and the testing and analysis methods used to characterize fatigue and fracture behavior of structural materials. Contents include fatigue mechanisms, crack growth and testing; fatigue strength prediction and analysis; fracture mechanics, damage tolerance, and life assessment; environmental effects; and fatigue and fracture resistance of ferrous, nonferrous, and nonmetallic structural materials. Statistical aspects of fatigue data, the planning and evaluation of fatigue tests, and the characterization of fatigue mechanisms and crack growth are also covered. Practical applications and examples of fracture control in weldments, process piping, aircraft systems, and high-temperature crack growth and thermos-mechanical fatigue are also included. For information on the print version of Volume 19, ISBN 978-0-87170-385-9, follow this link.
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Table of Contents
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Introduction
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Industrial Significance of Fatigue ProblemsByDavid W. HoeppnerDavid W. HoeppnerDepartment of Mechanical Engineering, The University of UtahSearch for other works by this author on:Published:01 January 1996
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Fracture and StructureByC. Quinton BowlesC. Quinton BowlesUniversity of Missouri-Columbia/Kansas CitySearch for other works by this author on:Published:01 January 1996
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Fatigue Properties in EngineeringByD.W. HoeppnerD.W. HoeppnerDepartment of Mechanical Engineering, University of UtahSearch for other works by this author on:Published:01 January 1996
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Alloy Design for Fatigue and FractureByStephen D. AntolovichStephen D. AntolovichWashington State UniversitySearch for other works by this author on:Published:01 January 1996
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Micromechanisms of Monotonic and Cyclic Crack GrowthByPublished:01 January 1996
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Fatigue Mechanisms, Crack Growth, and Testing
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Fatigue Failure in Metals[1]ByMorris E. Fine;Morris E. FineR.R. McCormick School of Engineering & Applied Science, Department of Materials Science & Engineering, Northwestern UniversitySearch for other works by this author on:Yip-Wah ChungYip-Wah ChungR.R. McCormick School of Engineering & Applied Science, Department of Materials Science & Engineering, Northwestern UniversitySearch for other works by this author on:Published:01 January 1996
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Cyclic Stress-Strain Response and MicrostructureByHans-Jürgen ChristHans-Jürgen ChristUniversität-GH-SiegenSearch for other works by this author on:Published:01 January 1996
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Fatigue Crack Nucleation and MicrostructureByPetr LukášPetr LukášInstitute of Physics of Materials, Academy of Sciences of the Czech RepublicSearch for other works by this author on:Published:01 January 1996
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Fatigue Crack Growth under Variable-Amplitude LoadingByJ. SchijveJ. SchijveDelft University of TechnologySearch for other works by this author on:Published:01 January 1996
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Fatigue Crack ThresholdsByA.J. McEvilyA.J. McEvilyUniversity of ConnecticutSearch for other works by this author on:Published:01 January 1996
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Behavior of Small Fatigue CracksByR. Craig McClung;R. Craig McClungSouthwest Research InstituteSearch for other works by this author on:Stephen J. Hudak, Jr.;Stephen J. Hudak, Jr.Southwest Research InstituteSearch for other works by this author on:David L. DavidsonDavid L. DavidsonSouthwest Research InstituteSearch for other works by this author on:Published:01 January 1996
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Effect of Crack Shape on Fatigue Crack GrowthByK.S. RavichandranK.S. RavichandranThe University of UtahSearch for other works by this author on:Published:01 January 1996
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Fatigue Crack Growth TestingByAshok Saxena;Ashok SaxenaGeorgia Institute of TechnologySearch for other works by this author on:Christopher L. MuhlsteinChristopher L. MuhlsteinGeorgia Institute of TechnologySearch for other works by this author on:Published:01 January 1996
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Mechanisms of Corrosion FatigueByP.S. PaoP.S. PaoMaterials Science and Technology Division, Naval Research LaboratorySearch for other works by this author on:Published:01 January 1996
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Corrosion Fatigue TestingByPeter L. AndresenPeter L. AndresenGE Corporate Research & DevelopmentSearch for other works by this author on:Published:01 January 1996
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Detection and Monitoring of Fatigue CracksByS. Shanmugham;S. ShanmughamDepartment of Materials Science and Engineering, University of TennesseeSearch for other works by this author on:P.K. LiawP.K. LiawDepartment of Materials Science and Engineering, University of TennesseeSearch for other works by this author on:Published:01 January 1996
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Fatigue Strength Prediction and Analysis
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Fundamentals of Modern Fatigue Analysis for DesignByM.R. MitchellM.R. MitchellRockwell Science CenterSearch for other works by this author on:Published:01 January 1996
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Estimating Fatigue LifeByNorman E. DowlingNorman E. DowlingVirginia Polytechnic Institute and State UniversitySearch for other works by this author on:Published:01 January 1996
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Multiaxial Fatigue StrengthByDavid L. McDowellDavid L. McDowellGeorgia Institute of TechnologySearch for other works by this author on:Published:01 January 1996
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Factors Influencing Weldment FatigueByF.V. Lawrence;F.V. LawrenceUniversity of Illinois at Urbana-ChampaignSearch for other works by this author on:S.D. Dimitrakis;S.D. DimitrakisUniversity of Illinois at Urbana-ChampaignSearch for other works by this author on:W.H. MunseW.H. MunseUniversity of Illinois at Urbana-ChampaignSearch for other works by this author on:Published:01 January 1996
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Fatigue of Mechanically Fastened JointsByHarold ReemsnyderHarold ReemsnyderBethlehem Steel CorporationSearch for other works by this author on:Published:01 January 1996
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Statistical Considerations in FatigueByPaul S. VeersPaul S. VeersSandia National LaboratoriesSearch for other works by this author on:Published:01 January 1996
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Planning and Evaluation of Fatigue TestsByWolfgang-Werner MaennigWolfgang-Werner MaennigDepartment of Mechanical Engineering, Division of Material Sciences, Technische Fachhochschule Berlin (retired),GermanySearch for other works by this author on:Published:01 January 1996
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Effect of Surface Conditions and Processing on Fatigue PerformanceByPublished:01 January 1996
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Fretting FatigueByW.A. GlaeserW.A. GlaeserBattelle Memorial InstituteSearch for other works by this author on:Published:01 January 1996
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Contact FatigueByS.J. ShafferS.J. ShafferBattelle LaboratoriesSearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Control for Powder Metallurgy ComponentsByRandall M. German;Randall M. GermanThe Pennsylvania State UniversitySearch for other works by this author on:Richard A. QueeneyRichard A. QueeneyThe Pennsylvania State UniversitySearch for other works by this author on:Published:01 January 1996
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Fatigue and Life Prediction of GearsPublished:01 January 1996
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Fatigue and Life Prediction of BearingsByCharles MoyerCharles MoyerThe Timken Company (retired)Search for other works by this author on:Published:01 January 1996
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Fatigue of SpringsByMark HayesMark HayesSpring Research and Manufacturers' AssociationSearch for other works by this author on:Published:01 January 1996
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Fracture Mechanics, Damage Tolerance, and Life Assessment
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An Introduction to Fracture MechanicsByStephen D. Antolovich;Stephen D. AntolovichSchool of Mechanical and Materials Engineering, Washington State University
FASM, Professor and Director
Search for other works by this author on:Bruce F. AntolovichBruce F. AntolovichMetallurgical Research Consultants Inc.President and Consulting Engineer
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Fracture Resistance of Structural AlloysByK.S. Ravichandran;K.S. RavichandranThe University of UtahSearch for other works by this author on:A.K. VasudevanA.K. VasudevanOffice of Naval ResearchSearch for other works by this author on:Published:01 January 1996
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Fracture Toughness TestingByJohn D. LandesJohn D. LandesUniversity of Tennessee,KnoxvilleSearch for other works by this author on:Published:01 January 1996
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Concepts of Fracture Control and Damage Tolerance AnalysisByPublished:01 January 1996
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The Practice of Damage Tolerance AnalysisByPublished:01 January 1996
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Residual Strength of Metal StructuresByPublished:01 January 1996
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Fatigue and Fracture Control of WeldmentsByPublished:01 January 1996
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Fracture Mechanics in Failure AnalysisPublished:01 January 1996
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Operating Stress Maps for Failure ControlByP.F. TimminsP.F. TimminsPresident, Risk Based Inspection Inc.Search for other works by this author on:Published:01 January 1996
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Failure Control in Process OperationsByP.F. TimminsP.F. TimminsRisk Based Inspection Inc.Search for other works by this author on:Published:01 January 1996
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Stress-Corrosion Cracking and Hydrogen EmbrittlementByGerhardus H. KochGerhardus H. KochCC Technologies, Inc.Search for other works by this author on:Published:01 January 1996
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Elevated-Temperature Crack GrowthByRichard H. Norris;Richard H. NorrisMechanical Properties Research Laboratory, School of Materials Science and Engineering, Georgia Institute of TechnologySearch for other works by this author on:Parmeet S. Grover;Parmeet S. GroverMechanical Properties Research Laboratory, School of Materials Science and Engineering, Georgia Institute of TechnologySearch for other works by this author on:B. Carter Hamilton;B. Carter HamiltonMechanical Properties Research Laboratory, School of Materials Science and Engineering, Georgia Institute of TechnologySearch for other works by this author on:Ashok SaxenaAshok SaxenaMechanical Properties Research Laboratory, School of Materials Science and Engineering, Georgia Institute of TechnologySearch for other works by this author on:Published:01 January 1996
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High-Temperature Life AssessmentByA.F. LiuA.F. LiuRockwell International (retired)Search for other works by this author on:Published:01 January 1996
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Thermal and Thermomechanical Fatigue of Structural AlloysByHuseyin SehitogluHuseyin SehitogluDepartment of Mechanical and Industrial Engineering, University of IllinoisSearch for other works by this author on:Published:01 January 1996
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Life Extension and Damage Tolerance of AircraftByMitchell P. Kaplan;Mitchell P. KaplanWillis & Kaplan, Inc.Search for other works by this author on:Timothy A. WolffTimothy A. WolffWillis & Kaplan, Inc.Search for other works by this author on:Published:01 January 1996
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Damage Tolerance Certification of Commercial AircraftByT. SwiftT. SwiftFederal Aviation AdministrationSearch for other works by this author on:Published:01 January 1996
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The U.S. Air Force Approach to Aircraft Damage Tolerant DesignByMitchell P. Kaplan;Mitchell P. KaplanWillis & Kaplan, Inc.Search for other works by this author on:John W. LincolnJohn W. LincolnAeronautical Systems Center, Wright Patterson Air Force BaseSearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Resistance of Ferrous Alloys
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Fracture and Fatigue Properties of Structural SteelsByAlexander D. WilsonAlexander D. WilsonLukens Steel CompanySearch for other works by this author on:Published:01 January 1996
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Fatigue Resistance and Microstructure of Ferrous AlloysByRonald W. LandgrafRonald W. LandgrafVirginia Polytechnic Institute and State UniversitySearch for other works by this author on:Published:01 January 1996
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Fracture Mechanics Properties of Carbon and Alloy SteelsPublished:01 January 1996
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Fatigue and Fracture Properties of Cast SteelsPublished:01 January 1996
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Fatigue and Fracture Properties of Cast IronsByPublished:01 January 1996
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Bending Fatigue of Carburized SteelsByGeorge KraussGeorge KraussColorado School of MinesSearch for other works by this author on:Published:01 January 1996
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Contact Fatigue of Hardened SteelsPublished:01 January 1996
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Fatigue and Fracture Resistance of Heat-Resistant (Cr-Mo) Ferritic SteelsByR.W. Swindeman;R.W. SwindemanOak Ridge National LaboratorySearch for other works by this author on:W. RenW. RenOak Ridge National LaboratorySearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Properties of Stainless SteelsByPublished:01 January 1996
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Fracture Toughness of Austenitic Stainless Steels and Their WeldsByW.J. MillsW.J. MillsMember of ASM International,Upper St. Clair, PASearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Properties of Duplex Stainless SteelsByPublished:01 January 1996
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Fatigue and Fracture Resistance of Nonferrous Alloys
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Selecting Aluminum Alloys to Resist Failure by Fracture MechanismsByE.A. Starke, Jr.E.A. Starke, Jr.University of Virginia, Department of Materials Science and EngineeringSearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Properties of Aluminum Alloy CastingsByTheodore L. ReinhartTheodore L. ReinhartBoeing Commercial Airplane GroupSearch for other works by this author on:Published:01 January 1996
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Fatigue Strength of Aluminum Alloy WeldsByJeffrey S. CromptonJeffrey S. CromptonEdison Welding InstituteSearch for other works by this author on:Published:01 January 1996
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Fatigue and Fracture Properties of Titanium AlloysPublished:01 January 1996
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Fatigue and Fracture of Nickel-Base SuperalloysByBruce F. AntolovichBruce F. AntolovichMetallurgical Research Consultants, Inc.Search for other works by this author on:Published:01 January 1996
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Fatigue Properties of Copper AlloysPublished:01 January 1996
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Fatigue and Fracture Resistance of Magnesium AlloysPublished:01 January 1996
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Fatigue of Solders and Electronic MaterialsByPublished:01 January 1996
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Fatigue and Fracture of Composites, Ceramics, and Glasses
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Fracture and Fatigue of DRA CompositesByJohn J. Lewandowski;John J. LewandowskiCase Western Reserve UniversitySearch for other works by this author on:Preet M. SinghPreet M. SinghCase Western Reserve UniversitySearch for other works by this author on:Published:01 January 1996
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Residual Strength of Composite Aircraft Structures with DamageByC.C. Poe, Jr.C.C. Poe, Jr.NASA Langley Research CenterSearch for other works by this author on:Published:01 January 1996
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Toughening and Strengthening Models for Nominally Brittle MaterialsByPublished:01 January 1996
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Fatigue and Fracture Behavior of GlassesByJames R. VarnerJames R. VarnerNew York State College of Ceramics at Alfred UniversitySearch for other works by this author on:Published:01 January 1996
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Appendices
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Summary of Stress-Intensity FactorsByAlan LiuAlan LiuRockwell International (retired)Search for other works by this author on:Published:01 January 1996
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Supplementary Information