Issam Doghri scite author profile

This paper presents an incremental secant mean-field homogenization (MFH) procedure for composites made of elasto-plastic constituents. In this formulation, the residual stress and strain states reached in the elasto-plastic phases upon a fictitious elastic unloading are considered as starting point to apply the secant method. The mean stress fields in the phases are then computed using secant tensors, which are naturally isotropic and enable to define the Linear-Comparison-Composite. The method, which remains simple in its formulation, is valid for general non-monotonic and non-proportional loading. It is applied on various problems involving elastic, elasto-plastic and perfectly-plastic phases, to demonstrate its accuracy compared to other existing MFH methods.

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Mean-field homogenization of multi-phase thermo-elastic composites: a general framework and its validation

Pierard

Friebel

Doghri

2004

Composites Science and Technology

234

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An implicit-gradient-enhanced incremental-secant mean-field homogenization scheme for elasto-plastic composites with damage

Noels

Adam³

et al. 2013

International Journal of Solids and Structures

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A thermodynamically-based constitutive model for thermoplastic polymers coupling viscoelasticity, viscoplasticity and ductile damage

Krairi

Doghri

2014

International Journal of Plasticity

146

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Issam Doghri

Mechanics of Deformable Solids: Linear and Nonlinear, Analytical and Computational Aspects

A combined incremental-secant mean-field homogenization scheme with per-phase residual strains for elasto-plastic composites

Mean-field homogenization of multi-phase thermo-elastic composites: a general framework and its validation

An implicit-gradient-enhanced incremental-secant mean-field homogenization scheme for elasto-plastic composites with damage

A thermodynamically-based constitutive model for thermoplastic polymers coupling viscoelasticity, viscoplasticity and ductile damage

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