Identification of rheological models and boundary conditions in metal forming Online publication date: Tue, 05-Oct-2010
by Danuta Szeliga, Maciej Pietrzyk
International Journal of Materials and Product Technology (IJMPT), Vol. 39, No. 3/4, 2010
Abstract: Identification of rheological models and boundary conditions in metal forming is performed. Various rheological models, from classical closed-form equations to advanced multiscale models, are investigated. Capabilities and limitations of models are discussed. Inverse method is applied to identification of the models on the basis of plastometric tests. Ability of this technique to eliminate the effect of inhomogeneity of deformation is demonstrated. Importance of rheological parameters is evaluated using parameter sensitivity analysis. Finally, sensitivity of the inverse approach with respect to assumptions is performed and accuracy of this approach is evaluated. Good practice guide for identification of rheological model is proposed.
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