Exfoliation of aluminum-lithium (Al-Li) alloy 8090 (UNS A98091) in plate and sheet form was studied by measuring the compressive forces generated by voluminous grain boundary corrosion products. The forces were shown to be related closely to grain shape, with more elongated microstructures generating higher forces. Aging treatment of the alloy also was a factor. Corrosion product forces were ranked in the order: under-aged > over-aged > peak-aged. High susceptibility of the over-aged temper in 8090 differed from that of conventional, precipitation-hardened Al alloys and was attributed to the formation of anodic phases in the Li-containing material. Stress corrosion tests were performed on the plate using double-cantilever beam specimens. The sheet was tested under constant load in the through-thickness direction. KISCC values, the limiting values of stress intensity for stress corrosion to occur, were compared with the maximum corrosion product forces and supported the proposition that exfoliation proceeded by a stress-assisted corrosion mechanism.

Subject
Materials, Stress intensity, Corrosion testing, Exfoliation, Corrosion products, Stress, Force, Tensile stress, Aluminum alloys, Alloys, Grain, Stress corrosion cracking, Aging
Keywords:
aging, alloy 8090, aluminum, corrosion product wedging, exfoliation, grain shape, heat treatment, intergranular attack, lithium, stress corrosion cracking
NACE International
1993
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