2016 | OriginalPaper | Buchkapitel
New Analysis of Solute Drag in AA5754 by Precise Determination of Point Defect Generation and the Orowan Relation
verfasst von : Brad J. Diak, Alex Penlington, Shig Saimoto
Erschienen in: ICAA13 Pittsburgh
Verlag: Springer International Publishing
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Serrated deformation in Al-Mg alloys creates problems that affect consumer product acceptability. This effect is usually attributed to the Portevin-LeChâtelier effect. In this study the inverse PLC effect due to solute drag on moving dislocations is examined in AA5754. The drag mechanism is dependent on the diffusivity of the solute which is in-turn dependent on the point defect evolution during deformation. Experimental determination of the parabolic James-Barnett drag profile by strain rate change experiments indicates the peak stress is centered at 1.5×10−9m/s, which requires a mechanical formation energy for vacancies of 0.4eV/at. A new slip-based constitutive relation was used to determine the evolution of vacancy volume fraction with deformation with strain, which is greater than the volume fraction of vacancies predicted by the solute drag profile.