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Full-Text Articles in Operations Research, Systems Engineering and Industrial Engineering
Ambient- And High-Temperature Mechanical Properties Of Isochronally Aged Al–0.06sc, Al–0.06zr And Al–0.06sc–0.06zr (At.%) Alloys, Keith E. Knipling, David N. Seidman, David C. Dunand
Ambient- And High-Temperature Mechanical Properties Of Isochronally Aged Al–0.06sc, Al–0.06zr And Al–0.06sc–0.06zr (At.%) Alloys, Keith E. Knipling, David N. Seidman, David C. Dunand
U.S. Navy Research
Ambient- and high-temperature precipitation strengthening are investigated in Al–0.06Sc, Al–0.06Zr and Al–0.06Sc–0.06Zr (at.%) alloys. Following solidification, Sc is concentrated at the dendrite peripheries while Zr is segregated at the dendrite cores. During isochronal aging, precipitation of Al3Sc (L12) commences between 250 and 300 °C for Al–0.06Sc, and reaches a 429 MPa peak microhardness at 325 °C. For Al–0.06Zr, precipitation of Al3Zr (L12) first occurs between 400 and 425 °C and reaches a 295 MPa peak microhardness at 475 °C. A pronounced synergistic effect is observed when both Sc and Zr are present. Above 325 °C, Zr …