Fatigue MechanismsJeffrey T. Fong |
Contents
Fatigue MechanismKey to the Solution of the Engineers Second | 3 |
On the Process of Subsurface Fatigue Crack Initiation in Ti6Al4V | 47 |
Persistent Slipbands in Fatigued FaceCentered and BodyCentered | 69 |
Closing Remarks by Session ChairmanL F COFFIN | 75 |
633 | 96 |
Grain Size Effect on Crack Nucleation and Growth in LongLife | 135 |
Mechanisms of Fatigue and Environmentally Assisted Fatigue | 174 |
Factors Influencing Stage I Crack Propagation in AgeHardened | 214 |
Micromechanisms of LowCycle Fatigue in NickelBased Superalloys | 501 |
LowCycle Fatigue Damage Mechanisms at High Temperature | 528 |
A Mechanism of Intergranular Fracture During HighTemperature | 569 |
Cyclic StressStrain Response and Damage Mechanisms at High | 592 |
Concluding Remarks on SessionB TOMKINS S MANSON | 624 |
Quantitative Stereological Methods for Analyzing Important | 633 |
A Critical Evaluation of Mathematical Equations for Fatigue Crack | 683 |
Micromechanics Theory of Fatigue Crack Initiation Applied to Time | 707 |
Direct Observation and Mechanism of Fatigue Crack Propagation | 234 |
The Study of Fatigue Mechanisms with Electron Channeling | 254 |
Closing Remarks by Session ChairmanJ C GROSSKREUTZ | 276 |
Direct ObservationsThe Essential Ingredients for Discovering | 287 |
Microstructural Aspects of the Threshold Condition | 342 |
Experiments Concerning Brittle Ductile and Environmentally | 371 |
Some Effects of Microstructure and Environment on Fatigue Crack | 396 |
Quantitative Analysis of Fatigue ProcessMicrocracks and Slip | 420 |
Fatigue Behavior of PolymersP BEARDMORE | 453 |
Fatigue Fracture Micromechanisms in Engineering Plastics | 471 |
Statistical Aspects of Fatigue at Microscopic Specimen | 729 |
Opening Remarks by Session ChairmanJ T FONG | 761 |
Fatigue Mechanisms in Nickel and CobaltBase Eutectic Composites | 788 |
On Understanding EnvironmentEnhanced Fatigue Crack Growth | 816 |
Model for Prediction of Fatigue Lives Based Upon a Pitting Corrosion | 841 |
Symposium Summary and an Assessment of Research Progress | 873 |
General Discussion and Concluding RemarksS MANSON | 889 |
903 | |
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Common terms and phrases
alloys American Society ASTM ASTM STP behavior Composite Materials compression corrosion fatigue crack growth rate crack initiation crack length crack nucleation crack propagation crack tip craze creep cyclic loading da/dN deformation discussion distribution ductile effect electron Engineering environment experimental factor failure fatigue crack growth fatigue crack propagation Fatigue Mechanisms ferrite fiber fracture mechanics fracture surface frequency grain boundary increase intergranular martensite Materials Science matrix measured Metallurgical Transactions metals microcracks microscopic microstructure MN/m² mode notch nucleation number of cycles observed occur orientation paper parameters particles percent plastic strain plastic zone polymers PSB's quantitative region Research screw dislocations shear stress shown in Fig single crystals slip plane slow-fast Society for Testing specimen Stage I crack steel strain rate stress amplitude stress intensity striations structure studies superalloys symposium tensile Testing and Materials threshold tion vacuum yield strength yield stress