Article ID Journal Published Year Pages File Type
780063 International Journal of Mechanical Sciences 2015 13 Pages PDF
Abstract

•Analysis of isotropic and kinematic hardening during fatigue life for a 9Cr steel.•Fatigue life prediction using Chaboche visco-plasticity and damage model.•UMAT code for the implementation of the visco-plasticity damage model.•Stress partition and optimisation methods used to determine material constants.

The fatigue behaviour of a 9Cr power plant steel at a temperature of 600 °C was studied by uniaxial fatigue tests and microstructural analysis using electron microscopy. A continuum damage mechanics apporach was coupled to the constitutive equations of the Chaboche elasto-visco-plastic model to describe the fatigue behaviour of the 9Cr power plant steel at 600 °C. A stress partition method is introduced to understand the fatigue softening behaviour, and used to give an initial estimate of the material constants in the Chaboche model. Further optimisation procedures with plastic strain range dependency of the material constants were introduced in the optimisation procedure in order to accurately predict the material behaviour, especially after damage initiation. An ABAQUS UMAT subroutine was coded to allow the full life cyclic softening behaviour of a power plant component to be accurately predicted in a finite element calculation. The multiaxial capability of the coding is validated against notched bar test data.

Related Topics
Physical Sciences and Engineering Engineering Mechanical Engineering
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