%0 Polo + 10 %A Wolters, J. %E Betten, J. %E Penkalla, Heinz-Josef %I Forschungszentrum Jülich GmbH Zentralbibliothek, Verlag %D 1994 %C Jülich %B Berichte des Forschungszentrums Jülich %T Implementierung eines strukturabhängigen Werkstoffmodells für die Superlegierung IN738LC in das Finite Elemente Programm ABAQUS %U http://juser.fz-juelich.de/record/857680/files/J%C3%BCl_2907_Wolters.pdf %U http://juser.fz-juelich.de/record/857680/files/J%C3%BCl_2907_Wolters.pdf?subformat=pdfa %X Superalloys, mainly consisting of nickel, are used for applications in aerospace as well as in stationary gas turbines. In the temperature range above 800°C the blades, which are manufactured of these superalloys, are subjected to high centrifugal forces and thermal induced loads. For computer based analysis of the thermo-mechanical behaviour of the blades models for the stress-strain behaviour are necessary. These models have to give a reliable description of the stress-strainbehaviour, with emphasis on inelastic effects. The implementation of the model in finite element codes requires a numerical treatment of the constitutive equations with respect to the given interface of the used code. In this paper constitutive equations for the superalloy IN738LC are presented and the implementation in the finite element code ABAQUS with the numerical preparation of the model is described. In order to validate the model calculations were performed for simple uniaxial loading conditions as well as for a complete cross section of a turbine blade under combined thermal and mechanical loading. The achieved results were compared with those of additional calculations by using ABAQUS, including Norton's law, which was already implemented in this code.