Fatique and Fracture MechanicsGary R. Halford, Joseph P. Gallagher |
Contents
An Overview and Discussion of Basic Methodology for Fatigue | 3 |
Irwins Stress Intensity Factor A Historical Perspective | 38 |
The Contributions of George Irwin to ElasticPlastic Fracture Mechanics Development | 54 |
A New Incremental Fatigue Method | 65 |
Biaxial Fatigue of Stainless Steel 304 under Irregular Loading | 79 |
Fatigue Life Estimation Under Cumulative Cyclic Loading Conditions | 94 |
Assessments of Low Cycle Fatigue Behavior of Powder Metallurgy Alloy U720 | 110 |
Computer Aided Nondestructive Evaluation Method of Welding Residual Stresses by Removing Reinforcement of Weld Proposal of a New Concept ... | 128 |
Dislocation Mechanics Basis and Stress State Dependency of the Master Curve | 318 |
Investigation of a New Analytical Method for Treating Kinked Cracks in a Plate | 329 |
Calculation of Stress Intensity Factors for Cracks of Complex Geometry and Subjected to Arbitrary Nonlinear Stress Fields | 348 |
Stress Intensity Predictions with ANSYS1 for Use in Aircraft Engine Component Life Prediction | 371 |
Fracture Parameters of Surface Cracks in Compressor Disks | 391 |
Prediction of TimeDependent Crack Growth with Retardation Effects in Nickel Base Alloys | 405 |
The Effect of Low Cycle Fatigue Cracks and Loading History on High Cycle Fatigue Threshold | 427 |
Fatigue Crack Growth Threshold Stress Intensity Determination via Surface Flaw Kb Bar Specimen Geometry | 445 |
Bulk Property Evaluation of a Thick Thermal Barrier Coating | 143 |
Application of the TwoParameter JA2 Description to Ductile Crack Growth | 163 |
The Technical Basis for ASTM E 182098 Deformation Limits on Jc | 183 |
Variations of Constraint and Plastic Zone Size in SurfaceCracked Plates Under Tension or Bending Loads | 206 |
A StripYield Model for PartThrough Surface Flaws Under Monotonic Loading | 221 |
Application of the Weibull Methodology to a ShallowFlaw Cruciform Bend Specimen Tested Under Biaxial Loading Conditions | 242 |
Local Approach to Dynamic Fracture Toughness Evaluation | 271 |
Transition Fracture Toughness Testing with Notched Round Bars NRB | 305 |
Fatigue Strength of Weld Repair Specimens Under Simulated Program Loading of an Overhead Traveling Crane | 457 |
Modeling Crack Growth in Thin Sheet Aluminum Alloys | 475 |
Residual Strength Analyses of Riveted LapSplice Joints | 486 |
Damage Repair Simulation of a Tension Panel and Pressurized Cylindrical Shell Using Adhesively Bonded Patches | 505 |
Effect of Moisture on Fracture Toughness of CompositeWood Bonded Interfaces | 526 |
Author Index | 545 |
547 | |
Other editions - View all
Fatigue and Fracture Mechanics: 31st Volume, Issue 1389 Gary R. Halford,Joseph P. Gallagher No preview available - 2000 |
Fatigue and fracture mechanics, Volume 31 Gary R. Halford,Joseph P. Gallagher No preview available - 2000 |
Fatigue and Fracture Mechanics: 31st Volume, Issue 1389 Gary R. Halford,Joseph P. Gallagher No preview available - 2000 |
Common terms and phrases
A₂ alloy American Society amplitude analysis approach ASTM International ASTM STP behavior biaxial loading calculated components crack extension crack front crack growth rate crack length crack propagation crack surface crack tip CTOA cycles cyclic da/dN determined effect eigenstrain elastic elastic-plastic Engineering equation estimated evaluated experimental failure Fatigue and Fracture Fatigue Crack Growth fatigue damage finite element finite element analysis flow stress Fracture Mechanics fracture toughness geometry J-R curve Journal kink kJ/mē Kmax linear maximum mean stress measured method modulus notch opening displacement overpeak panel parameter plane strain plastic zone plate predicted range residual stresses S-N curves shown in Fig Society for Testing solution steels strain rate stress field stress intensity factor stress ratio superalloy surface crack surface flaw temperature tensile tension Testing and Materials threshold toughness data uniaxial versus Weibull stress weight function weld West Conshohocken yield yield stress