Enhanced CDM model accounting of stress triaxiality and Lode angle for ductile damage prediction in metal forming

Author:

Zhang Kai1ORCID,Badreddine Houssem2,Hfaiedh Naila3,Saanouni Khemais2,Liu Jianlin1

Affiliation:

1. Department of Engineering Mechanics, College of Pipeline and Civil Engineering, China University of Petroleum (East China), Qingdao, China

2. ICD/LASMIS, University of Technology of Troyes, Troyes, France

3. Léonard de Vinci Pôle Universitaire, Research Center, Paris La Défense Cedex, France

Abstract

This paper deals with the prediction of ductile damage based on CDM approach fully coupled with advanced elastoplastic constitutive equations. This fully coupled damage model is developed based on the total energy equivalence assumption under the thermodynamics of irreversible processes framework with state variables. In this model, the damage evolution is enhanced by accounting for both stress triaxiality and Lode angle. The proposed constitutive equations are implemented into Finite Element (FE) code ABAQUS/Explicit through a user material subroutine (VUMAT). The material parameters are determined by the hybrid experimental-numerical method using various tensile and shear tests. Validation of the proposed model has been done using different tests of two aluminum alloys (Al6061-T6 and Al6014-T4). Through comparisons of numerical simulations with experimental results for different loading paths, the predictive capabilities of the proposed model have been shown. The model is found to be able to capture the initiation as well as propagation of macro-crack in sheet and bulk metals during their forming processes.

Funder

Qingdao Postdoctoral Applied Research Program

European Funds and the Alsace-Champagne-Ardenne-Loraine Region

Fundamental Research Funds for the Central Universities

Publisher

SAGE Publications

Subject

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

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