Abstract

Fatigue crack growth (FCG) research conducted in the near-threshold regime has identified a room-temperature creep crack growth damage mechanism for a fine-grain powder-metallurgy aluminum alloy (8009). At very low Δ K, an abrupt acceleration in room-temperature FCG rate occurs at high stress ratio and is exacerbated by increased levels of K max ( K max ⩾ 0.4 K Ic). Detailed crack-surface analysis correlates accelerated FCG with the formation of crack-tip process zone micro-void damage. Experimental results show that the near-threshold and K max influenced accelerated crack growth is time and temperature dependent.

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