Abstract
A new experimental technique for examining dynamic strain ageing in solid solutions is proposed. It is based on the imposition of an oscillatory perturbation on a tensile specimen monotonically deforming under strain or stress control. Experimental measurements on an AlMgSi alloy show that the attendant oscillatory response has characteristic features which may be used to detect and characterize dynamic strain ageing. A constitutive model which accounts for dynamic strain ageing is used to provide a theoretical basis for the analysis. A closed-form solution of the governing equations is obtained under the assumption of small oscillatory perturbations. A full numerical solution is given for the AlMgSi alloy which was tested using the technique proposed. Good agreement of the predictions of the model with the experimental results is obtained.
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