Cracks and FractureASTM International, 1976 - Technology & Engineering |
Contents
Introduction | 1 |
Derivation of a LowCycle Fatigue Relationship Employing the JIntegral | 33 |
Assessment of StrengthProbabilityTime Relationships in CeramicsE M | 63 |
Application of Fracture Mechanics to the Thermostructural Failure | 86 |
Fracture Toughness of ATJS Graphite and CVD CarbonCarbon Composites | 109 |
Mixed Mode Fracture in Anisotropic MediaJ G WILLIAMS AND M W BIRCH | 125 |
Applicability of the K Iscc Concept to Very Small Defectsw G CLARK JR | 138 |
Mean Stress and Environmental Effects on Near Threshold Fatigue Crack | 154 |
Preliminary Results of a Program for Developing Fracture Toughness Data | 291 |
Jic Test Results from Two SteelsJ H UNDERWOOD | 312 |
Influence of Configuration on RCurve Shape and G When Plane Stress | 330 |
Fatigue Crack Growth and JIntegral Fracture Parameters of Ti6A14V | 346 |
Effect of Cooling Rate on Fracture Behavior of MillAnnealed Ti6A14V | 371 |
Fracture Toughness Testing of Glassy PlasticsR D MARGOLIS R W DUNLAP | 391 |
Brittle Fracture K Behavior of Cracks Emanating from Notchess | 409 |
Weight Functions for ThreeDimensional Symmetrical Crack ProblemsR C | 448 |
NotchYield Ratio as a Quality Control Index for PlaneStrain Fracture | 169 |
Ductile Fracture of Cylindrical Vessels Containing a Large FlawF ERDO | 191 |
Pilot Study of the Fracture Arrest Capabilities of A553B SteelG T HAHN | 209 |
Note on the Dependence of Crack Velocity on Driving Force for an Epoxy | 234 |
Predicting Fatigue Crack Retardation Under Single and Intermittent | 245 |
ThreeDimensional Stress Distribution of a DoubleCantilever Beam with | 262 |
Fracture Dynamics of WedgeLoaded Double Cantilever Beam Specimen | 274 |
The Weight Function Method for Determining Stress Intensity FactorsP C | 471 |
A Laser Interferometry Method for Experimental Stress Intensity Factor | 490 |
Criteria for Growth of the Angled CrackJ L SWEDLOW | 506 |
Crack Tip StrainA Comparison of Finite Element Method Calculations | 522 |
Theoretical and Experimental Analysis of Crack Extension at Nozzle | 535 |
SideCracked Plates Subject to Combined Direct and Bending ForcesJ | 559 |
Other editions - View all
Cracks and Fracture: Proceedings of the Ninth National Symposium on Fracture ... J. L. Swedlow No preview available - 1976 |
Common terms and phrases
alloy American Society analysis applied approximately ASTM Method ATJ-S behavior calculated Charpy compact specimens computed constant crack depth crack extension crack front crack growth rate crack length crack propagation crack tip crack velocity cracked specimens creep criterion curve cycles da/dN DCB specimen deflection DENT specimens determined displacement dynamic effect elastic-plastic energy release rate equations experimental fast fracture fatigue crack growth finite element Fracture Mechanics fracture surface fracture toughness Fracture Toughness Testing geometry graphite hoop stress initial crack J-integral Journal of Fracture K-factors K₁ Kisce ksi Vin linear elastic load maximum measured Mode nozzle obtained overload parameter percent plane strain plane stress plastic zone plate precracked predicted procedure R-curve range ratio shown in Fig Society for Testing steel strain energy stress intensity factor temperature tensile tension Testing and Materials thickness three-point bend values versus weight function yield strength