Fatigue, environment and temperature effects

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.