A novel microstructure-sensitive extreme value probabilistic framework is introduced to evaluate material performance/variability for damage evolution processes (e.g., fatigue, fracture, creep). This framework employs newly ...

The well-known trade-off between strength and fracture toughness in bulk specimens is often used to explain the low fracture toughness of very thin ductile face-centered cubic (FCC) metal specimens, but this interpretation ...

This dissertation presents a new parameter for characterizing the crack growth resistance of thin ductile sheets: the steady-state work density gradient. The steady-state work density gradient describes the stress necessary ...

The steady-state crack growth of 25.4, 50.8, and 127 micrometer thick 1235 aluminum sheets was characterized under quasistatic loading conditions in laboratory air. Because steady-state crack propagation cannot be characterized ...