Introduction / Section 1: |
Industrial Significance of Fatigue Problems |
Fracture and Structure |
Fatigue Properties in Engineering |
Alloy Design for Fatigue and Fracture |
Micromechanisms of Monotonic and Cyclic Crack Growth |
Fatigue Mechanisms, Crack Growth, and Testing / Section 2: |
Fatigue Failure in Metals |
Cyclic Stress-Strain Response and Microstructure |
Fatigue Crack Nucleation and Microstructure |
Fatigue Crack Growth under Variable-Amplitude Loading |
Fatigue Crack Thresholds |
Behavior of Small Fatigue Cracks |
Effect of Crack Shape on Fatigue Crack Growth |
Fatigue Crack Growth Testing |
High-Temperature Fatigue Crack Growth Testing / Appendix: |
Mechanisms of Corrosion Fatigue |
Corrosion Fatigue Testing |
Detection and Monitoring of Fatigue Cracks |
Fatigue Strength Prediction and Analysis / Section 3: |
Fundamentals of Modern Fatigue Analysis for Design |
Estimating Fatigue Life |
Multiaxial Fatigue Strength |
Factors Influencing Weldment Fatigue |
Fatigue of Mechanically Fastened Joints |
Statistical Considerations in Fatigue |
Planning and Evaluation of Fatigue Tests |
Surface Effects on Fatigue |
Effect of Surface Conditions and Processing on Fatigue Performance |
Fretting Fatigue |
Contact Fatigue |
Fatigue of Special Forms or Components |
Fatigue and Fracture Control for Powder Metallurgy Components |
Fatigue and Life Prediction of Gears |
Fatigue and Life Prediction of Bearings |
Fatigue of Springs |
Fracture Mechanics, Damage Tolerance, and Life Assessment / Section 4: |
An Introduction to Fracture Mechanics |
Fracture Resistance of Structural Alloys |
Fracture Toughness Testing |
Concepts of Fracture Control and Damage Tolerance |
The Practice of Damage Tolerance Analysis |
Residual Strength of Metal Structures |
Fatigue and Fracture Control of Weldments |
Fracture Mechanics in Failure Analysis |
Stress Maps for Failure Control |
Failure Control in Process Operations |
Environmental Effects |
Stress Corrosion Cracking and Hydrogen Embrittlement |
Elevated-Temperature Crack Growth |
High-Temperature Life Assessment |
Thermal and Thermo-Mechanical Fatigue of Structural Alloys |
Damage Tolerance of Aircraft Systems |
Life Extension and Damage Tolerance of Aging Aircraft |
Damage Tolerance Certification of Commercial Aircraft |
The Air Force Approach to Aircraft Damage Tolerant Design |
Fatigue and Fracture Resistance of Ferrous Alloys / Section 5: |
Fracture and Fatigue Properties of Structural Steels |
Fatigue Resistance and Microstructure of Ferrous Alloys |
Fracture Mechanics Properties of Carbon and Alloy Steels |
Fatigue and Fracture Properties of Cast Steels |
Fatigue and Fracture Properties of Cast Irons |
Bending Fatigue of Carburized Steels |
Contact Fatigue of Hardened Steels |
Fatigue and Fracture Mechanics of Heat-Resistant (Cr-Mo) Ferritic Steels |
Fatigue and Fracture Properties of Stainless Steels |
Fracture Toughness of Austenitic Stainless Steels and Their Welds |
Fatigue and Fracture Properties of Duplex Stainless Steels |
Fatigue and Fracture Resistance of Nonferrous Alloys / Section 6: |
Selecting Aluminum Alloys to Resist Failure by Fracture Mechanisms |
Fatigue and Fracture Properties of Cast Aluminum Alloys |
Fatigue Strength of Aluminum Alloy Welds |
Fatigue and Fracture Resistance of Titanium Alloys |
Fatigue and Fracture Properties of Superalloys |
Fatigue Properties of Copper Alloys |
Fatigue and Fracture Resistance of Magnesium Alloys |
Fatigue of Solders and Electronic Materials |
Fatigue and Fracture of Composites, Ceramics, and Glasses / Section 7: |
Fracture and Fatigue of DRA Composites |
Fatigue of Composite Laminates |
Residual Strength with Damage in Composite Aircraft Structures |
Fatigue of Brittle Materials |
Toughening and Strengthening Models for Nominally Brittle Materials |
Fatigue and Fracture Behavior of Glasses |
Appendices |
Parameters for Estimating Fatigue Life |
Stress Intensity Factors |
Metric Conversion Guide |
Abbreviations and Symbols |
Index |
Introduction / Section 1: |
Industrial Significance of Fatigue Problems |
Fracture and Structure |