Fractography and Materials ScienceR. D. Zipp |
Contents
Introduction | 3 |
Microstructural Origin of Flutes and Their Use in Distinguishing Striationless Fatigue Cleavage from StressCorrosion Cracking in Titanium Alloys | 5 |
Influence of Microstructure and Environment on the Fatigue Crack Growth Fracture Topography of Ti6AI2Sn4Zr2Mo01Si | 32 |
A Fractographic Investigation of StressCorrosion Cracking in HighStrength Steel Alloys | 51 |
Fractographic and Microstructural Analysis of StressCorrosion Cracking of ASTM A533 Grade B Class 1 Plate and ASTM A508 Class 2 Forging in P... | 70 |
HydrogenInduced Brittle Fracture of Type 304L Austenitic Stainless Steel | 86 |
Effect of Temperature on the Fracture Toughness Behavior of Inconel X750 | 98 |
Correlation of Fractographic and Microstructural Features | 116 |
Fractographic Analysis of Delayed Failure in Ceramics | 246 |
MultipleMist Regions on Glass Fracture Surfaces | 259 |
Localized Deformation and Fracture of Magnesium Oxide | 271 |
Fatigue Fracture Surface Micromorphology in Polyvinyl chloride | 291 |
Fracture of Tungsten Wire in Metal Matrix Composites | 314 |
Quantitative Fractography of a Fatigued Ti28V Alloy | 335 |
Fourier Transform TechniquesFracture and Fatigue | 355 |
Application of Scanning Electron Microscopy for Correlating Fracture Topography and Microstructure | 387 |
Fractography of Laser Welds | 131 |
Fractographic Comparison of PlaneStrain Fracture Toughness Instrumented Precracked Charpy and SlowBend Precracked Charpy Tests on a Quench... | 150 |
Fractographic Characterization of the Effect of Inclusions on Fatigue Crack Propagation | 166 |
Effect of Compressive Loading on Fatigue Crack Growth Rate and Striation Spacing in Type 2219T851 Aluminum Alloy | 187 |
Correlation Between Fatigue Crack Growth Rate and Fatigue Striation Spacing in AISI 9310 AMS 6265 Steel | 202 |
Strength Characterization and Nature of Crack Propagation in Ceramic Materials | 223 |
Characterization of the Fracture Behavior of FineGrained HighStrength LowAlloy HSLA Steels and IronBase Alloys Under LowTemperature and Me... | 394 |
Application of Load Pulsing to the Fractographic Study of StressCorrosion Cracking of Austenitic Stainless Steels | 413 |
A Test Method to Determine the Degree of Embrittlement in Electrodeposited Copper | 428 |
Summary | 441 |
447 | |
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Common terms and phrases
AISI aluminum alloy American Society analysis ASTM International austenite bainitic brittle ceramics Charpy cleavage Corrosion crack front crack growth rate crack length crack propagation crack tip da/dN deformation dislocation ductile effect etched facets failure fatigue crack growth fatigue fracture fatigue striation spacing ferrite flaw flutes frac fractographic Fracture Mechanics fracture profile fracture surface fracture topography fracture toughness frequency fusion zone grain boundary HSLA steels inclusion formations Inconel intergranular Kmax laser-beam load magnification martensite Materials Science metallographic Metallurgical Transactions Metals microcracks microstructure microvoid mist region mm/cycle morphology observed occur orientation percent photomicrographs plane plastic plate precracked ratio room temperature scanning electron scanning electron microscope secondary cracking shown in Fig shows signal slip bands Society for Testing specimen steel stress intensity stress-corrosion cracking techniques tensile Testing and Materials tion transgranular tungsten tungsten fibers ture twin Type values weldment yield strength