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The Effects of Microstructural Stability on the Compressive Response of two Cast Aluminum Alloys up to 300 oC...

by Patrick T Shower, Shibayan Roy, Charles S Hawkins, Amit Shyam
Publication Type
Journal
Journal Name
Materials Science and Engineering A
Publication Date
Page Numbers
519 to 529
Volume
700

In this study, the high temperature compressive response of cast aluminum alloys 319 and RR350 is compared in light of their microstructures. The 319 alloy is widely used in thermally critical automotive applications and provides a baseline for comparison with the RR350 alloy, whose microstructural stability at high homologous temperatures was recently reported. Cylindrical compression samples from each alloy were tested at four temperatures up to 300 oC at a constant true strain rate that was varied over four orders of magnitude. Although both alloys are strengthened by metastable θ′ precipitates (nominally Al2Cu) in the as-aged condition, their mechanical response diverges at temperatures greater than 250 oC as the strengthening precipitates evolve in the 319 alloy and retain their as-aged morphology in the RR350 alloy. Deformation mechanisms of each alloy are examined using microstructural analysis and empirical activation energy calculations. The stability of the θ′ phase in the RR350 alloy leads to effective precipitation hardening at homologous temperatures up to 0.6 and an extensive regime of grain boundary controlled deformation.