The observed phenomenon of Young's modulus degradation we incorporate into numerical simulations via new constitutive relationships.
The aim of this work is to show first, how the springback of a steel sheet drawn part is affected by the stiffness degradation, as it results from the damage evolved during forming process, and second, to build a respective modelling approach to take this degradation into account. For the consideration of the orthotropic elastic properties degradation we develop an approach, based on the Mori-Tanaka theory, where damage is considered by inclusion of ellipsoidal cavities. The respective void shape evolution is proposed to be identified with the measurements of elastic modulus in two perpendicular directions during the uniaxial tensile test of a flat specimen at different loading stages. The proposed approach is coupled with the Gurson-Tvergaard-Needleman (GTN) plastic potential, though it could be substituted by almost any other continuum damage model. At the end the presented approach is experimentally validated by a simple springback test, developed by authors. A very good agreement between by calculation predicted and measured springback amount is observed.
HALILOVIČ, Miroslav, VRH, Marko, ŠTOK, Boris. Prediction of elastic recovery of a formed steel sheet considering stiffness degradation. Meccanica, Jun. 2009, vol. 44, no. 3, str. 321-338.