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" Fatigue "
edited by John J. Burke, Volker Weiss.
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BL
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| Record Number
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575614
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b404833
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| Main Entry
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Burke, John J.
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| Title & Author
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Fatigue : Environment and Temperature Effects /\ edited by John J. Burke, Volker Weiss.
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| Publication Statement
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Boston, MA :: Springer US :: Imprint: Springer,, 1983.
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| Series Statement
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Sagamore Army Materials Research Conference Proceedings ;; 27
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| ISBN
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9781489917362
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: 9781489917386
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| Contents
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Session I Overview of Temperature and Environmental Effects of Fatigue -- Overview of Temperature and Environmental Effects of Fatigue of Structural Metals -- Session II Room Temperature Environmental Effects -- Corrosion Fatigue Crack Propagation -- Surface Reactions and Fatigue Crack Growth -- Determination of Prefracture Damage and Failure Prediction in Corrosion-Fatigues A1-2024-T4 by X-Ray Diffraction Methods -- Session III Room Temperatue Environmental Effects -- ?K Thresholds in Titanium Alloys - the Role of Microstructure, Temperature and Environment -- Dislocation Distribution in Plastically Deformed Metals -- Session IV High Temperature and Environmental Effect - Mechanisms -- The Effect of Microstructure on the Fatigue Behavior of Ni Base Superalloys -- Creep Crack Growth -- Temperature Dependent Deformation Mechanisms of Alloy 718 in Low Cycle Fatigue -- Deformation Induced Microstructural Changes in Austenitic Stainless Steels -- Fatigue and Fracture Resistance of Stainless Steel Weld Deposits After Elevated Temperature Irradiation -- Session V High Temperature and Environmental Effect - Mechanisms -- High-Temperature Static Fatigue in Ceramics -- Environment, Frequency and Temperature Effects on Fatigue in Engineering Plastics -- Session VI Materials -- Creep-Fatigue Effects in Structural Materials Used in Advanced Nuclear Power Generating Systems -- The Effect of Environment and Temperature on the Fatigue Behavior of Titanium Alloys -- Creep-Fatigue-Effects in Composites -- Session VII Design - Engineering Applications -- Thermal Fatigue Analysis -- Life Prediction for Turbine Engine Components -- A Kinetic Model of High Temperature Fatigue Crack Growth -- Design-, Operation-, and Inspection-Relevant Factors of Fatigue in Crack Growth Rates for Pressure Vessel and Piping Steels.
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Surfaces (Physics).
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Weiss, Volker.
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SpringerLink (Online service)
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