Thermomechanical processing of aluminum alloys: proceedings of a symposium sponsored by the TMS-AIME Heat Treatment Committee at the TMS fall meeting in St. Louis, Missouri, October 18, 1978
Metallurgical Society of AIME, 1979 - Technology & Engineering - 228 pages
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The Effect of Ingot Processing on the Microstructure
7 other sections not shown
ABC processing aging Alcoa aluminum alloys annealing AR+HR cobalt level cold rolling commercial 2024 Condition crack initiation creep strain cycles decreases deformation DiRusso dislocation density dislocation substructure dispersoids ductility effect elongated eutectoid fatigue fracture flow stress fracture surfaces fracture toughness grain boundaries grain structure heat treatment high strength higher hot rolled hot-rolled increase ingot Inst intergranular fracture ITMT lower strength material matrix mean free path mechanical properties Metallurgy microstructure minimum creep rate nucleation observed orientation overaged parameter particles phase plate platelets powder Powder Metallurgy processing mode produced recrystallized residual stresses resistance room temperature schedule shown in Figure shows slip bands solution heat solution treatment specimens stacking fault energy strain rate strength FTMT strengthening stress corrosion subgrain Table tensile strength thermomechanical processing thermomechanical treatment thermomechanically treated Trans transgranular transmission electron micrographs unrecrystallized water quenched yield strength