Abstract
Fatigue crack growth rates (L–T) for 102 and 178mm plates of 7085-T7451 are established at R=0.1 and 0.5 for a wide-range of ΔK and environments. At R of 0.1, the 178mm plate exhibits slower crack growth rates independent of environment. The crack growth trends correlate with changes in the fracture surface roughness and compliance-based closure indications, suggesting a dominant role of roughness induced closure. At R of 0.5 compliance-based metrics indicate that minimal closure exists, but plate thickness dependent crack growth behavior persists; grain-scale crack path tortuosity and crack branching govern this behavior. Increased crack path roughness, tortuosity, and branching in the 178mm plate is attributed to strain localization/cracking along precipitate free zones formed in the thicker plate due to a slower quench rate.
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