Verification of the transferability of micromechanical parameters by cell model calculations with visco-plastic materials |
| |
Authors: | W Brocks D -Z Sun A Hnig |
| |
Institution: | Fraunholer Institut für Werkstoffmechanik Wöhlerstr. 11 D-79108, Freiburg, Germany |
| |
Abstract: | Finite element (FE) calculations of a cylindrical cell containing a spherical hole have been performed under large strain conditions for varying triaxiality with three different constitutive models for the matrix material, i.e. rate independent plastic material with isotropic hardening, visco-plastic material under both isothermal and adiabatic conditions, and porous plastic material with a second population of voids nucleating strain controlled. The “mesoscopic” stress-strain and void growth responses of the cell are compared with predictions of the modified Gurson model in order to study the effects of varying triaxiality and strain rate on the critical void volume fraction. The interaction of two different sizes of voids was modelled by changing the strain level for nucleation and the stress triaxiality. The study confirms that the void volume fraction at void coalescence does not depend significantly on the triaxiality if the initial volume fraction of the primary voids is small and if there are no secondary voids. The strain rate does not affect fc either. The results also indicate that a single internal variable, f, is not sufficient to characterize the fracture processes in materials containing two different size-scales of void nucleating particles. |
| |
Keywords: | |
本文献已被 ScienceDirect 等数据库收录! |
|