Damage-Induced Anisotropy with Damage Deactivation

Author:

Abdul-Latif A.1,Mounounga T. B.2

Affiliation:

1. Laboratoire de Mécanique, Matériaux et Modélisation (L3M) IUT de Tremblay, 93290 Tremblay-en-France, France,

2. Laboratoire de Mécanique, Matériaux et Modélisation (L3M) IUT de Tremblay, 93290 Tremblay-en-France, France

Abstract

Based on a well-established micromechanical model of damage initiation in low-cycle fatigue (LCF) already developed in Abdul-Latif (1994), a new extension is proposed for describing the damage deactivation effect. With a small strain assumption, it is assumed that the local damage variables initiate at the crystallographic slip system level. It is considered that the damage is active only if micro-cracks (MC) are open, while damage affects differently the mechanical properties of polycrystals during its closure (inactive phase). The anisotropic damaged (activation and deactivation) behavior concept is adopted only at the macroscopic level. With a fourth-order damage tensor, the deactivation damage effect under multiaxial cyclic loadings is modeled describing the related phenomenon of the induced-oriented anisotropy. Several numerical simulations are conducted describing the overall damaged behavior of polycrystals in biaxial LCF. The responses of a given grains aggregate are recorded and then discussed. As a conclusion, the model describes fairly well the damage activation and deactivation effect in plastic fatigue, notably under multiaxial complex loading paths.

Publisher

SAGE Publications

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science,Computational Mechanics

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